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Wound Polypropylene Micron Cartridge Filters INR   0 INR  0
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Wound Polypropylene Micron Cartridge Filters

Wound Polypropylene Micron Cartridge Filters These are popular liquid filter cartridges that have a continuous, diagonally interlocking weave over a supporting core. The most popular media used for these filters is a polypropylene(PP) yarn over a PP supporting core. The winding provides tapered filter passages of controlled size and shape. The larger particles are trapped on the outer surface and form a pre-cake. The smaller particles are trapped within the torturous path of the winding. These filters work on the principle of depth filtration, offering a gradual rise in pressure drop across the life of the cartridge. Brand Hydrowound MMP is the largest manufacturer of the wound PP cartridges in India. The Hydrowound cartridges use the PP yarn manufactured by a superior technology. The yarn is fibrous and has about 40% higher air volume compared to conventional yarn. The filtration takes place by “absorption technology”. This provides for the advantages of (a) lower pressure drop (2) increased efficiency and (3) higher dirt holding capacity. Micron Rating MMP Hydrowound cartridges are offered in standard micron ratings of 0.5, 1, 5, 10, 25, 50, 75 and 100. On request, customised micron rating can also be provided. The cartridges are of nominal rating with an efficiency of 88-90%. Sizes Length: 10” / 20” / 30” / 40” Outer Dia: 63mm ( Standard Cartridge) / 114mm (Big Blue of Jumbo Cartridge) Inner Dia: 27.5 mm Ends: DOE ( Double Open Ended) / SOE ( Single Open Ended)

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cartridge Filters INR   0 INR  0
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cartridge Filters

Cartridge filter can be surface or depth-type filter: depth-type filters capture particles and contaminant through the total thickness of the medium, while in surface filters (that are usually made of thin materials like papers, woven wire, cloths) particles are blocked on the surface of the filter. These systems work by pushing water from the pool into the tank. A skimmer collects the larger debris and the secondary basket catches anything that the first one may have missed. The water then passes through the polyester filters, and dirt gets stuck on the screen allowing for clean water to pass by.

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Water Softener - Aqua Conditioner INR   0 INR  0
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Water Softener - Aqua Conditioner

Aqua Conditioners Technology The Aqua Conditioners technology is unique because it: Prevents scale & also breaks down existing scale – without salts, chemicals or electricity Provides an endless supply of ‘softened’ water without further cost or maintenance What is a Aqua Conditioner system? According to some very narrow definitions, a ‘water-softener’ changes hard water into the soft water only with the removal of calcium from the water with sodium carbonate. This means the Aqua Conditioners unit is not technically a water softener as it does not add chemicals or remove any minerals from the water flow. However, it does turn ‘hard water‘ into ‘soft water’ as characteristics of the calcium molecules changes so that it does not drop out and cling to other surfaces. The Aqua Conditioners device prevents scale from forming by neutralizing the scale producing properties of the minerals in hard water. This means the neutralized mineral particles will flow freely through the system without sticking to the surfaces. What does the Aqua Conditioners technology do? The technology is designed to protect plumbing systems and other surfaces from the negative effects of hard water minerals. The scale and residue that usually sticks to pipes, valves and other surfaces is prevented from forming by changing the hard minerals in the water into inactive microscopic particles. These inactive mineral particles stay suspended in the water (much like minerals are suspended in milk) and flow freely, unable to stick to surfaces. Most importantly, unlike hard water minerals, if the inactive mineral particles occasionally drop out of suspension they can easily be washed or wiped away without the use of caustic chemicals. How does a Aqua Conditioners work? The unit is installed directly on your water line. It has at its core a non-sacrificial, catalytic converter that is non-ferrous, resists rusting and corrosion, and is totally non-toxic and ecologically safe. The unit requires no salt, no resins, no electricity, no magnets, no back washing and no maintenance. Using a unique combination of metals within the alloy core plus the principle of turbulence (the Venturi effect), the water flow is forced through the Aqua Conditioners unit where an electro-chemical catalytic reaction occurs. During this reaction, electrons are transferred between molecules, completing missing electrons and so new mineral compounds are formed. The electro-physical changes in the minerals neutralize their scale producing properties. The result is that previously ‘hard’ minerals are changed from being large molecules into inactive, microscopic mineral particles. The Chemistry Blended in a specialized foundry process, each alloy core is made up of a number of dissimilar metals scientifically selected from the anode and cathode galvanic scale. The alloy is not a sacrificial anode (ie; does not need replacement). On contact with water thousands of intense galvanic electrochemical reactions occur along the length of the alloy core. Minerals are attracted to these galvanic sites as they flow through the system. The electrical charge or zeta potential of the minerals in the water is reduced allowing the minerals to aggregate and form nano-sized colloids which remain in suspension rather than precipitate on pipes and associated equipment. Zeta potential is considered to be the electric potential of the minerals in the water. Aqua Conditioners lowers the Zeta potential of water by a factor of almost 2. Green Water Concepts India Pvt Ltd supplies Aqua Conditioner Water Softners

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Industrial RO Plants INR   0 INR  0
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Industrial RO Plants

Reverse osmosis (RO) is a water purification technology that uses a semipermeable membrane to remove ions, molecules, and larger particles from drinking water. In reverse osmosis, an applied pressure is used to overcome osmotic pressure, a colligative property, that is driven by chemical potential differences of the solvent, a thermodynamic parameter. Reverse osmosis can remove many types of dissolved and suspended species from water, including bacteria, and is used in both industrial processes and the production of potable water. The result is that the solute is retained on the pressurized side of the membrane and the pure solvent is allowed to pass to the other side. To be "selective", this membrane should not allow large molecules or ions through the pores (holes), but should allow smaller components of the solution (such as solvent molecules) to pass freely. In the normal osmosis process, the solvent naturally moves from an area of low solute concentration (high water potential), through a membrane, to an area of high solute concentration (low water potential). The driving force for the movement of the solvent is the reduction in the free energy of the system when the difference in solvent concentration on either side of a membrane is reduced, generating osmotic pressure due to the solvent moving into the more concentrated solution. Applying an external pressure to reverse the natural flow of pure solvent, thus, is reverse osmosis. The process is similar to other membrane technology applications. However, key differences are found between reverse osmosis and filtration. The predominant removal mechanism in membrane filtration is straining, or size exclusion, so the process can theoretically achieve perfect efficiency regardless of parameters such as the solution's pressure and concentration. Reverse osmosis also involves diffusion, making the process dependent on pressure, flow rate, and other conditions. Reverse osmosis is most commonly known for its use in drinking water purification from seawater, removing the salt and other effluent materials from the water molecules. Green Water Concepts engineers design and build tailor-made reverse osmosis plants on customs specifications. Our skid-mounted reverse osmosis plants range from tap water to brackish water and cover all type of application including drinking and process water. Green Water Concepts’ Reverse Osmosis plants are used to produce high-quality demineralised water. RO Plant is used extensively in the food and beverage industry (especially the brewing industry), pharmaceutical and the electronics industries. Green Water Concepts study the water chemistry and then select the most suitable membrane configuration in order to provide a plant which gives a high recovery rate. Further help is provided to the client to make use of, often by further treatment, of the reject water. The standard Green Water Concepts range of R O units utilizes the most modern membrane technology and consists of a modular design comprising of: • Skid-mounted epoxy-coated steel base • Spiral-wound membranes in high-pressure GRP vessels • Multi-stage high-pressure stainless steel feed pump • Control panel • Pre-filter • Pressure and flow gauges for feed, reject and permeate • Water quality indicator on conductivity alarm

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Anthracite INR   0 INR  0
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Anthracite

Anthracite Filter Media are filtration materials for turbidity and SS removal. Since the specific gravity is lighter than that of Filter Sand, it is much used in combination with Filter Sand in dual-media filtration, to consist reverse grain layers after backwashing. In addition, because of high content carbon of this product, it has high resistance to various chemicals and high physical strength so that it is widely used for city and industrial water purification. Features of Anthracite Filter Media 1. High void percentage and much removal capacity of turbidity and SS.  In the “Single-medium filtration” treated by Filter Sand only, small particles are placed at upper part of layer, called as “Surface filtration” that turbidity and SS are caught at surface layer part mainly, and it results in less removal capacity of turbidity and SS. By use of Anthracite Filter Media of which the specific gravity is lighter than that of Filter Sand and even bigger particles can be placed on the Filter Sand, it is possible to enlarge the removal capacity of turbidity and SS as ideal “Dual-media filtration” in combination with Filter Sand and it is widely used in many water works in Japan. Since Anthracite Filter Media, rich angular and complicated in form, have high void percentage and large specific area, “Deep bed filtration” which is effective not only at the surface but also to the depth can be realized and it is also used with single and deep layer. From these features, the filtration will be effective by use of Anthracite Filter Media as follows. * Extending filter run length to lower washing water waste and improve treated water collection. * Possible to quicken filter run length to save space for installation of equipment. * Prevention of filtration blockage due to Synedra, Microcystin, etc. * Prevention of mad ball forming at the surface of sand layer. 2. Micro-flocs growing easily.  Since the grain has complicated form and angularities, suspended solids are retained in the inter granular spaces throughout the greater part of layer depth. After addition of coagulant, the water to be treated which has been sent out the filter without agitation is agitated and generates micro-flocs while it passes through the inter granular space. It results in improvement of treated water quality. * Improvement of treated water quality. 3. Easy change from single-medium filtration (by use of Filter Sand) to dual-media filtration.  The washing method of Anthracite Filter Media is the same as that of Filter Sand. It is no need to install new washing equipment additionally in case of changing the existing filter from single-medium filtration by only use of Filter Sand to dual-media filtration by use of Anthracite Filter Media. It is possible to improve the filtration effect by removing a part of Filter Sand and fill up with Anthracite Filter Media there. * Improvement of filtration effect with reasonable budget. 4. High resistance to chemicals  Since Anthracite Filter Media of good quality contains less impurities and much carbon and it is not dissolved in acidic and alkaline water, it is suitable as filter medium and also used in the chemical industry for the filtration of brine in soda manufacturers. * Possible to use with various chemicals. 5. Being used as a carrier for bio film treatment.  Since Anthracite Filter Media have high void percentage and large specific area, bio film is easily formed on them. The medium is the most suitable not only for physical filtration but also as a carrier for bio film treatment. * High effect as a carrier for bio film treatment. Green Water Concepts is one of the largest distributor of anthracite media in kerala

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Softener Filter INR   0 INR  0
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Softener Filter

Water that does not form an immediate lather with soap is called hard water. Hardness of water is due to the presence of soluble calcium, magnesium or iron compounds. The most common compounds are calcium bicarbonate Ca (HCO3)2, magnesium bicarbonate Mg (HCO3)2, calcium sulphate CaSO4 and magnesium sulphate MgSO4. The addition of soap forms an insoluble scum. The scum consists of insoluble salts of these metals. Removal of these salts from the solution makes the water soft. Water that forms an immediate lather with soap is called soft water. Such water does not have dissolved salts of calcium, magnesium and iron. Types of Hardness: Depending upon the behavior of water towards soap, hardness is divided into two types. 1. Temporary hardness: Hardness of water due to the presence of soluble bicarbonates of calcium and Magnesium is called temporary hardness. When water containing dissolved carbon dioxide passes over solid carbonates (chalk or limestone deposits etc.), these compounds get dissolved in water. Rainwater and distilled water are always soft because they do not have dissolved (soluble) salts. 2. Permanent hardness: This is due to the presence of chlorides and sulphates of calcium and magnesium. Such a hardness can be removed by the addition of washing soda. This removes both the temporary and the permanent hardness of water. Problems with hard water The presence of certain metal ions in water causes a variety of problems. These ions interfere with the action of soaps. They also lead to build up of lime scale, which can foul plumbing, and galvanic corrosion. In industrial scale water softening plants, the effluent flow from re-generation process can precipitate scale that can interfere with sewerage systems. The slippery feeling experienced when using soap with soft water occurs because soaps tend to bind to fats in the surface layers of skin, making soap molecules difficult to remove by simple dilution. In contrast, in hard-water areas the rinse water contains calcium and/or magnesium ions which form insoluble salts, effectively removing the residual soap from the skin but potentially leaving a coating of insoluble stearates on tub and shower surfaces, commonly called soap scum. So it is very essential to remove the hardness of water which is known as softening of water. METHODS OF SOFTENING OF WATER Temporary hardness is removed in the following ways: Permanent hardness can be removed by the following methods: Practical means for softening water rely on ion-exchange polymers or reverse osmosis. Other approaches include precipitation methods and sequestration by the addition of chelating) agents. Devices that claim to use magnetism or electricity as a “water softening” technique are fraudulent. Ion-exchange resin Conventional water-softening appliances intended for household use depend on an ion-exchange resin in which hardness ions mainly Ca2+ and Mg2+ are exchanged for sodium ions. Ion exchange devices reduce the hardness by replacing magnesium and calcium (Mg2+ and Ca2+) with sodium or potassium ions (Na+ and K+).” Types of ion exchange materials Ion exchange resins are organic polymers containing anionic functional groups to which the di-cations (Ca++) bind more strongly than mono-cations (Na+). Inorganic materials called zeolites also exhibit ion-exchange properties. These minerals are widely used in laundry detergents. Resins are also available to remove carbonate, bi-carbonate and sulphate ions which are absorbed and hydroxide ions released from the resin. Regeneration of ion exchange resins When all the available Na+ ions have been replaced by calcium or magnesium ions, the resin must be re-charged by eluting the Ca2+ and Mg2+ ions using a solution of sodium chloride or sodium hydroxide depending on the type of resin used. For anionic resins, regeneration typically uses a solution of sodium hydroxide or potassium hydroxide. The waste waters eluted from the ion exchange column containing the unwanted calcium and magnesium salts are typically discharged to the sewerage system.

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Iron Removal Filter INR   0 INR  0
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Iron Removal Filter

The presence of iron and manganese is probably the most common water problem faced by consumers. Iron and manganese in excess usually results in discolored water, stains on clothing and floor tiles and also it affects the normal taste of water. Green Water Concepts designs the right iron and manganese removal system which brings down the iron and manganese to the acceptable levels in drinking water. Green Water chooses the right iron removal media based on iron analysis of water sample.

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