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water conditioning Applications

  • Magnetic Water Conditioning

    Stanford Magnets provide Water Conditioning Magnets that can be installed to water piping to lower the hardness of water.

    By Stanford Magnets based in Irvine, CALIFORNIA (USA).

  • Wilsa ElectroWaveTM Conditioning - Non-chemical water conditioning, break emulsions, enhance recovery

    Hudson Industries (a licensed partner) is now offering the patented Wilsa ElectroWaveTM Conditioner (EWC) for non-chemical water conditioning that provides enhanced oil recovery up to 99.999% with the power to break difficult emulsions. The Wilsa Effect is targeted at polar fluids, such as water. The Wilsa EWC directly targets the surface and interfacial tension of water molecules which breaks emulsions and forces the water to reject foreign matter such as oil and suspended solids. Furthermore viscosity is greatly reduced which allows the now coalesced oil to exit the water column with less friction, thus Stokes Law is fundamentally enhanced and retention time is greatly reduced. Combine the Wilsa EWC with your existing separation equipment or pair it with Hudson Coalescing Separator for maximum oil recovery/ removal. Contact us today for more information about Hudson Separators and Wilsa ElectroWaveTM Conditioning.

    By Hudson Industries based in Vienna, OHIO (USA).

  • Information on Wind Conditions for Marine and Ports

    Information on wind conditions is essential for the operation of a port. Approaching vessels need to be able to obtain accurate and reliable information on wind conditions on approach of the port. We provide this data via an internet link so the vessel can decide the approach on the basis of actual data obtained quayside.

    By Mierij Meteo b.v based in De Bilt, NETHERLANDS.

  • Water measurement systems & sensors for status & condition-based monitoring

    We offer a variety of telemetry based solutions to monitor and control assets:

    By Isodaq Technology - Hydro-Logic Group based in Bromyard, UNITED KINGDOM.

  • WASTEWATER TREATMENT WITH WILSA® CONDITIONING

    Value in Municipal Wastewater Treatment WILSA® technology can benefit municipal wastewater treatment by altering the physical properties of water-based slurries entering the separation process to decrease chemicals, drop suspended solids, and allow solids to more readily separate from water. Installation of WILSA® ElectroWave Conditioner upstream of a belt press at a wastewater treatment plant resulted in polymer usage dropping by >50% while achieving much dryer solids .

    By Hudson Industries based in Vienna, OHIO (USA).

  • Reverse Osmosis - Pretreatment and Clarification - Wils ElectroWaveTM Conditioning

    Wilsa ElectorWaveTM Conditioning can be used to pretreat water for reverse osmosis. The Wilsa Effect breaks emulsions, enhances separation to remove hydrocarbons and clarify solids before entering RO treatment. The effect also substantially lowers the viscosity of the water which allows it to pass through membranes with less effort.

    By Hudson Industries based in Vienna, OHIO (USA).

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    Chemical Water Treatment for drinking water

    Kurita specifically developed product ranges for drinking water treatment, in order to avoid any kind of problem that might occur with the preparation, transport or use of drinking water. Our technologies can be used for all kinds of conditions, from municipal water suppliers to private buildings (e.g. hotels, universities, hospitals and private homes).

    By Kurita based in Ludwigshafen, GERMANY.

  • Industrial water boiler feed water

    Ion exchange is an effective, versatile means of conditioning boiler feedwater. The term “ion exchange` describes the process : as water flows through a bed of ion exchange material, undesirable ions are removed and replaced with less objectionable ones. For example, in softening processes, calcium and magnesium ions(hardness) are exchanged for sodium ions. In dealkalization, the ions contributing to alkalinity(carbonate, bicarbonate, etc.) are removed and replaced with chloride ions.

    By PuriTech Ltd based in Herentals, BELGIUM.

  • Electrodeionization

    The Fractional Electrodeionization (FEDI) process is an advancement of conventional EDI. The patented dual voltage process allows for a higher flexibility and tolerance to inlet water conditions, thus lowering the risk of scaling, and improving the plant& design economics and reliability. By incorporating a two-stage separation process with different voltages the FEDI process is able to: Achieve a higher hardness tolerance by having distinctly different concentrate chambers with separate reject streams and thus reducing the potential of hardness scaling. Optimize power consumption by using higher electrical current only where required. Ensure the best water quality, continuously consistently by removing a major part of the deionization load in the hardness removal zone, while residual ionic impurities are effectively removed in the silica removal zone;, which stays in a polishing mode.

    By QUA Group LLC based in Canonsburg, PENNSYLVANIA (USA).

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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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    Chemical Water Treatment for membrane treatments

    Membrane units, in our days are widely used in the water pre-treatment preparation and are becoming one of the most important technologies in the production of high pure water. Nevertheless they often face problems with scaling and fouling and are therefore limited by frequent maintenance, downtime and high costs. Our treatment programs are specifically designed for membrane units like reverse osmosis, ultra- and nanofiltration and enable to remove or preventive control scaling and fouling. Our main target is to run these plants under environmentally friendly and beneficial economic conditions. Special attention is given to an efficient utilization of energy as well as saving precious water. Kurita develops an efficient and effective treatment concept achieving an optimal economic operation and a maximum operational reliability of a plant.

    By Kurita based in Ludwigshafen, GERMANY.

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    Analysis of Herbicides in Drinking Water

    Herbicides are used throughout the world to combat the growth of unwanted plant life. These polar compounds are hydrophilic, so they may find their way into drinking water sources. While gas chromatography has historically been the preferred technique for analysis of herbicides in water samples, the use of LC-MS/MS for this application is gaining acceptance. This is due to the power of MS/MS to provide detailed identification of multiple analytes, but also in part due to the variety of HPLC stationary phases that are available. In particular, several HPLC phases are available that provide great retention and peak shapes for polar analytes, such as herbicides, even under mostly aqueous mobile phase conditions. The combination of these factors may possibly eliminate need for time-consuming sample preparation.

    By Sigma-Aldrich Co., LLC based in Bellefonte, PENNSYLVANIA (USA).

  • EDI Solutions

    QUA’s FEDI® (Fractional EDI) stacks have superior hardness tolerance compared to the other EDI products on the market. With a dual voltage process this allows for a higher flexibility and tolerance to inlet water conditions, thus lowering the risk of scaling, and improving the plant's design economics and reliability. FEDI stacks are available in three different models which can be applied either for higher hardness tolerance or high water flow rates. MEGA FEDI stacks are ideal for large capacity, high flow systems normally required in heavy industrial projects such as power, petrochemicals, & electronics for high purity water needs. Each stack can handle treated water flow of up to 75 GPM . MEGA FEDI’s unique stackable design minimizes piping, reduces footprint, and makes it simple and easy to install on skids. FEDI-Rx products are specially designed for applications in pharmaceutical, biomedical and laboratory applications where installations require hot water sanitization to meet

    By QUA Group LLC based in Canonsburg, PENNSYLVANIA (USA).

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    Water Treatment in Mining

    The Mining Sector is one of the core industrial sectors being served by AdEdge Technologies. It is quickly becoming the fastest growing segment of our company. We offer customer driven water treatment solutions by understanding the needs of our customers and the demands of achieving ever changing and challenging water treatment discharge standards. From exploration to site closure and post closure, AdEdge can assist you in meeting your water treatment needs. With today’s emphasis on sustainability, AdEdge’s solutions are long-term focused and environmentally sensitive. We understand that the solutions employed must be able to satisfy regulatory agency requirements and improve the bottom-line. Ad-Edge understands that our solutions must be compatible with our customers’ operating environment that includes widely fluctuating market conditions, commodity markets, and thin operating margins.

    By Adedge Water Technologies, LLC based in Buford, GEORGIA (US) (USA).

  • Industrial water Nitrate removal from drinking water

    Since nitrates are very soluble and do not bind to soils, they have a high potential to migrate to groundwater. For the short-term, excessive levels of nitrate in drinking water have caused serious illness and sometimes death. The serious illness in infants is due to the conversion of nitrate to nitrite by the body, which can interfere with the oxygen-carrying capacity of the child’s blood. This can be an acute condition in which health deteriorates rapidly over a period of days. Symptoms include shortness of breath and blueness of the skin.

    By PuriTech Ltd based in Herentals, BELGIUM.

  • FEDI - Electrodeionization

    The Fractional Electrodeionization (FEDI) process is an advancement of conventional EDI. The patented dual voltage process allows for a higher flexibility and tolerance to inlet water conditions, thus lowering the risk of scaling, and improving the plant’s design economics and reliability. By incorporating a two-stage separation process with different voltages the FEDI® process is able to: Achieve a higher hardness tolerance by having distinctly different concentrate chambers with separate reject streams and thus reducing the potential of hardness scaling. Optimize power consumption by using higher electrical current only where required. Ensure the best water quality, continuously & consistently by removing a major part of the deionization load in the ‘hardness removal zone’, while residual ionic impurities are effectively removed in the ‘silica removal zone’, which stays in a polishing mode.

    By QUA Group LLC based in Canonsburg, PENNSYLVANIA (USA).

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    Golf course pond

    Controls algae in golf course ponds without expensive chemical treatments or time consuming manual labor. Golf courses should be maintained often and kept in perfect condition to offer golfers an optimal golf experience. A part of the golf course are the ponds on this area. Water in these ponds is often stagnant and thus sensitive to algal growth. Algae in a golf course pond make the water look unappealing and thereby reduce the total impression of the golf course itself. Furthermore maintaining these ponds can be a tiresome task because chemicals are not desirable and other water treatment methods are often cumbersome or just not sufficient.

    By LG Sonic based in Zoetermeer, NETHERLANDS.

  • Gas detection analyzers for wastewater treatment industry

    Regulations prohibit facilities from discharging flammable or explosive wastes from their processes into the wastewater collection system. These wastes are not only a fire and explosion hazard but they can also effect the efficient and effective operation of the treatment facility. PrevEx Flammability analyzers are used to continuously monitor the waste stream for flammable gases and vapors. Their unique design and operating technology make them the ideal analyzers for the harsh conditions found in the sewer environment.

    By Control Instruments Corporation based in Fairfield, NEW JERSEY (USA).

  • Dredging for flood control

    Watermaster Classic can move and work in extreme conditions. Because of this Watermster is ideal for preventing e.g. floods and damage caused by flooding. This multipurpose dredger can operate where no other machine can.

    By Watermaster - Aquamec Ltd. based in Säkylä, FINLAND.

  • Sulfide Oxidation with Hydrogen Peroxide (H2O2)

    Sulfide Odor Control Sulfide is found throughout the environment as a result of both natural and industrial processes. Most sulfide found in nature was produced biologically (under anaerobic conditions) and occurs as free hydrogen sulfide (H2S) - characterized by its rotten egg odor. We are most likely to encounter biogenic H2S in sour groundwaters, swamps and marshes, natural gas deposits, and sewage collection/treatment systems. Manmade sources of H2S typically occur as a result of natural materials containing sulfur (e.g., coal, gas and oil) being refined into industrial products. For a variety of reasons - aesthetics (odor control), health (toxicity), ecological (oxygen depletion in receiving waters), and economic (corrosion of equipment and infrastructure) - sulfide laden wastewaters must be handled carefully and remediated before they can be released to the environment. Typical discharge limits for sulfide are < 1 mg/L. Sulfide Treatment Alternatives There are dozens of alternatives for treating sulfide laden waters, ranging from simple air stripping (for the low levels present in groundwaters) to elaborate sulfur recovery plants (used to treat several tons per day at refineries and coal burning power plants). There are processes based on biology (using compost filters, scrubbing media, or inhibition/disinfection), chemistry (oxidation, precipitation, absorption, and combination), and physics (adsorption, volatilization, and incineration). Each process occupies a niche which is often defined by the scale and continuity of treatment, whether the sulfide is in solution or is a gas, the concentration of sulfide involved, and the disposition of the sulfide containing medium. However, for reasons relating to convenience and flexibility, chemical oxidation (using hydrogen peroxide) continues to grow in its scope of application. Treatment with Hydrogen Peroxide While other peroxygens such as permonosulfuric (Caro’s) acid, peracetic acid, and persulfates will oxidize sulfide, their use for this application is overkill. Hydrogen peroxide (H2O2) is considerably simpler and more cost-effective. H2O2 may control sulfides in two ways, depending on the application: Prevention - by providing dissolved oxygen which inhibits the septic conditions which lead to biological sulfide formation; and Destruction - by oxidizing sulfide to elemental sulfur or sulfate ion.

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

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