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cooling water treatment Applications

  • Water treatment for cooling towers

    Controlling and preventing the growth of microorganisms in a cooling tower is extremely important and required to keep the system running at optimal levels. The presence of microorganisms will cause the system to breakdown and decreases the efficiency of the heat transfer. Typically oxidizing biocides such as chlorine and bromine have been used to treat cooling water. Unfortunately these chemicals are highly reactive with other chemicals and microbiological species found in the water. Chlorine dioxide however is very non-reactive to other compounds found in the water and retains biocidal efficacy. Likewise it is also a superior chemical for removing the biofilm, which leads to the most predominant problems that all cooling towers face.

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

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    Cooling Water Treatment

    Efficiency is everything in the cooling water circuit. Everything at ProMinent revolves around the perfect cooling water circuit, which needs to experience few losses over its long life. The precise metering of inhibitors and biocides and suitable filters make this possible.

    By ProMinent Group - ProMinent GmbH based in Heidelberg, GERMANY.

  • Cooling tower water treatment

    The fresh water requirement for a cooling tower in a typical coal-based power plant is approximately 80% of the total consumption of water. These concentrated cooling water blowdown streams are extremely rich in silica, are characterized by higher hardness levels and include other organic loads. Aquatech has vast experience in recycle/reuse solutions for cooling tower blowdown and cooling tower water treatment. 

    By Aquatech International Corporation based in Canonsburg, PENNSYLVANIA (USA).

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    Chemical Water Treatment for cooling and processing water

    An optimal heat transfer is the most important point in every water cooled process. Scale, corrosion and biofouling negatively affect the heat transfer. Therefore Kurita develops for cooling and process water systems customized solutions, based on the combined treatments of scale & fouling prevention, corrosion inhibition, and biocides.

    By Kurita based in Ludwigshafen, GERMANY.

  • Water quality monitoring systems for cooling water treatment industry

    A number of treatment products are often added to prevent corrosion, scaling and fouling. Coating of sensors and other effects of these products must be taken into account when selecting analyzers. Discharge monitoring needs special attention because zero measurements must be reliable over time with little maintenance.

    By SWAN Analytische Instrumente AG based in Hinwil, SWITZERLAND.

  • Cooling Towers and Process Water System Cleaning Applications Using Hydrogen Peroxide

    The unique properties of hydrogen peroxide (H2O2) make it a good technology for keeping cooling loops, process water loops and heat exchangers clean from fouling that can occur due to various contaminants in the water. Hydrogen peroxide works well in removing organic fouling on surfaces through mechanical means and in specific applications through biocidal mechanisms. Hydrogen peroxide can be used in a shock treatment mode where it is fed based on a timer set-up. It can also be used occasionally at higher concentrations for maintenance cleaning purposes of fouled heat exchangers, cooling water loops and process water loops. Performing an occasional shock cleaning of a heat exchanger with hydrogen peroxide can remove buildup from surfaces and can result in improved heat transfer efficiency. By removing surface fouling, hydrogen peroxide may also improve the efficiency of other biocides such as bleach, bromine and non-oxidizers.

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

  • Water Disinfection for Industrial Water Treatment

    MIOX’s patented Mixed Oxidant Solution (MOS) or Hypochlorite (HYPO)chemistries for cooling tower and cooling loop water disinfection improves safety, lowers general corrosion rates, increases performance, and saves money. The unique qualities of MOS lowers corrosion rates by 80% in copper and 50% in steel, resulting in a reduction of downtime, maintenance, and expense. Additionally, MIOX generators improve workplace safety by eliminating the handling and storage of hazardous chemicals while maintaining steady disinfection residuals.

    By MIOX Corporation based in Albuquerque, NEW MEXICO (USA).

  • Microbial testing in cooling water system industry

    Superior reliability for superior control! Biocide treatments are essential to control microbiological growth in cooling systems. If not properly managed, the warm environments of cooling systems are ideal for the growth of microorganisms. As microorganism communities grow in cooling systems, they can attach to pipe walls and form biofilms. These biofilms pose serious risks, from human health risks like Legionnaire`s disease to reduced operating efficiency and eventually to equipment failure via microbiologically influenced corrosion (MIC).

    By LuminUltra Technologies Ltd. based in Fredericton, NEW BRUNSWICK (CANADA).

  • Cooling systems for filtration

    The installation of AZUD filtration equipments allows the reduction of the total solids in suspension in the water, and:

    • Helps to maintain an optimal efficiency of energy in the heat interchange process.
    • Reduce the accumulation of particles in the components of the cooling systems.
    • Reduce the growing of microorganisms. The higher or lower proliferation of these microorganisms is directly linked to the
    • higher or lower availability of organic nutrients which favour the development of the same.
    • When reducing the total quantity of suspended solids it is improved the efficiency in the application of chemical products to the treatment of water.
    • Decrease the frequency of maintenance labours.

    By Sistema Azud, S.A. based in Alcantarilla, SPAIN.

  • Chlorine dioxide for industrial water treatment

    Chlorine dioxide is used as a biocide in many industrial water treatment applications including cooling towers, process water and mill water.  Its selective oxidative properties usually results in lower dosages of ClO2 while also achieving improved microbial performance.

    By DuPont Chlorine Dioxide based in North Kingstown,, RHODE ISLAND (USA).

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    Cooling & Drinkingwater: ATP monitoring of biomass growth in waters

    Monitoring Biomass in (Cooling Tower) Waters through ATP monitoring

    The TOXcontrol can be used for ATP monitoring. Currently our company is doing research for further developments for this application on the TOXcontrol.

    Monitoring the microbial population of cooling towers is necessary in order to maintain the proper operation of the system. Conventional methods for monitoring microbial populations work by culturing microorganisms, a time-consuming procedure that requires days or even weeks of incubation before the results are known. Biofouling can be well-advanced before treatment begins. In addition, it is believed that this technique does not detect the full range of microbial life present in cooling systems.

    By microLAN On-line Biomonitoring Systems based in Waalwijk, NETHERLANDS.

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    Process water treatment

    Process water covers the wide range of boiler feed water, cooling water for heat exchangers or engine, chemicals dilution, etc. It should typically have a conductivity ranging from 0,1 to 50 uS/cm, with little to no hardness to avoid scaling in heating system. Oxygen and carbon dioxide should be removed to prevent corrosion. Depending on your application, the water quality requirements can vary: Boiler feed water characteristic. Cooling water quality. Tap water or fresh groundwater are the most widely used source of water to produce process water.

    By Lenntech Water Treatment based in Delft, NETHERLANDS.

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    Chemical Water Treatment for cleaning

    Deposits in water systems, especially in heat exchangers, result in a significant heat transfer reduction, in low efficiency and a loss of cooling capacity. Some systems, after long operational periods without any water conditioning or with inadequate treatment, need cleaning. Therefore Kurita Water Solutions proposes acidic, alkaline and neutral cleaners to remove deposits, scale, fouling, dirt, grime or impurities.

    By Kurita based in Ludwigshafen, GERMANY.

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    Water Treatment and Wastewater Treatment Solutions for Food and Beverage Industry

    Food and beverage processing companies have unique challenges requiring advanced food and beverage water treatment and wastewater treatment solutions. These challenges include optimizing water efficiency and exceeding regulation compliance standards. There is typically four main water processes involved in food and beverage processing. These processes are cooling water, process water, boiler feed water and process wastewater. The typical allocation of water used in each process varies by industry, from about 60-65% for processing uses in the meat & poultry industry to about 15-20% for the sugar processing industry.

    By Genesis Water Technologies, Inc. based in Maitland, FLORIDA (USA).

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    Water treatment chemicals for the manufacturing industry

    In all industrial sectors, productivity and economic efficiency are the main factors for sustainable success. Reliable and durable production plants together with their cooling, boiler and waste water systems therefore play an important role. For more than 60 years, Kurita has specialized in water and process treatment. Our 5,200 employees work on behalf of our customers worldwide in a variety of industrial fields. Our individual treatment concepts and competent service help ensure the safe and economical operation of their facilities.

    By Kurita based in Ludwigshafen, GERMANY.

  • Water treatment research for power generation sector

    The power generation sector is the largest industrial user of water in the world, with a need for enormous volumes of water for cooling and ultrapure water to supply boiler systems. Investment in water treatment technologies for this sector is worth $2.1 billion. Rapid industrialisation and economic growth in South East Asia and Sub-Saharan Africa is increasing demand for electricity, requiring significant investment in water technologies. Environmental regulation will push for increased treatment of scrubber wastewater and solutions to reduce the burden that cooling places on the local environment.

    By Global Water Intelligence (GWI) based in Oxford, UNITED KINGDOM.

  • Water treatment for power plants

    The process of electricity generation from fossil fuels such as coal, oil and natural gas is water-intensive. Between 40-50% of all water abstracted and used in developed countries is used in the generation of electricity. Thus, a reliable, abundant and predictable source of raw water supply to a power plant is a critical factor in site selection. Water supplies are required to provide various process waters for the following essential main purposes such as make-up water, cooling water for steam turbine condensers, and auxiliary plant cooling water.

    The primary application of modern water treatment technology is to maintain the integrity and performance of the power plant. Critical plant applications have water purity or conditioning requirements that must be adhered to for safe, reliable and efficient power generation.

    Experience has shown that integration of water technology treatments with power plant design can be very important in reducing operational problems and component failures 

    At power plant worldwide there are increasing limitations on water availability and environmental restrictions on discharges. This is expected to promote measures for water conservation and to have an increasing influence on water treatment decisions. At power plant, the recycling of internal wastewater streams can extend from the recovery of individual high-quality waste streams, which can be reused either directly or after only limited treatment, through to the development of fully integrated water/wastewater treatment systems for zero liquid discharge. However, the application of reuse schemes requires site-specific assessment, as not all waters may be viable options for recovery.

    By De Nora Water Technologies based in Colmar, PENNSYLVANIA (USA).

  • Water treatment research for microelectronics industry

    As devices get smaller and the fabrication plants get larger, the purity of the water required for ultrapure water systems increases. In terms of water reuse, the industry has relatively conservative attitudes towards recycling water for ultrapure water applications, but wastewater is treated and reused for cooling and other less critical purposes. Besides semiconductors, two other silicon-based sectors of the microelectronics industry need large volumes of highly pure water: flat panel displays (FPD) and photovoltaics (PV). Although, both sectors are in the process of maturing we anticipate that the increasing complexity of FPD and PV devices will create demand for even higher purity water.

    By Global Water Intelligence (GWI) based in Oxford, UNITED KINGDOM.

  • Water Disinfection for Food and Beverage Water Treatment

    MIOX provides advanced chemical solutions to the food, beverage and farming industries for all water treatment applications including source water treatment, surface or groundwater, process water treatment, cooling towers on the facility, bottle and surface disinfection, and clean in place (CIP) for syrups and raw sugars. Our team designs custom solutions to deliver safe, effective, and economically attractive alternatives to minimize or eliminate the use of expensive and hazardous delivered chemicals.

    By MIOX Corporation based in Albuquerque, NEW MEXICO (USA).

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    Water treatment chemicals for the steel and coke industry

    The many production facilities within the steel industry, e.g. the blast furnace, converter, continuous caster, hot and cold strip mills and the coke oven plant require immense quantities of water for the cooling circuits and for gas scrubbing. During the last few years, the majority of steel plants have managed to significantly reduce freshwater usage per ton of steel through water recycling and process optimization. However, the high water quality standards required for the water circuits and regulations for waste water remain unchanged, resulting in an increased demand for professional water treatment.

    By Kurita based in Ludwigshafen, GERMANY.

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