Heavy Equipments

Pretreatment process & filtration system

'' The main need for this is to '' improve the quality of feed water. It is done before before main scheme just to improve the water quality so that it will not affect the main plant.
We have wide range of filtration units that make the feed water suitable for further operation some of them as mentioned below :–
Flocculators & Clarifires
Above units are designed to free the feed water free from any type of impurities. We have full range of systems which can done optimize flocculation & coagulation.
High Rate Solids Contact Clarifier (HRSCC)
High Rate Solids Contact Clarifier is used for clarification of raw water and wastewater. Incorporates the design of internal solid recirculation thereby optimising the chemical consumption and making it more economical than conventional filter.










Lamella clarifiers & Tube Settler
A lamella clarifier is designed to remove particulates from liquids. They are often employed in primary water treatment in place of conventional settling tanks. They are used in industrial water treatment. Unlike conventional clarifiers they use a series of inclined plates. Tube settler device using bundles of tubes to let solids in water settle to the bottom for removal by sludge.







Activated Carbon Filter (ACF)
These filters remove oganic folulants & contaminates from water through absorption. Activated Carbon is an Highly Iodiene Value ( Value is 600,900 & 1200) material that absorbs organic colloids making it odour free. Other supporting media is various sizes pebbles, gravels & sand.
Iron Removal Filter (IRF)
Difference from ACF that here media containing Magnese dioxide supported by same pebbles gravels & Sand. Magnese dioxide is catalysing the precipitation of Iron particles in water & subsequently traps the precipitated iron in the filter bed.
Dual Media Filter (DMF)
It is mainly used for the removal of turbidity and suspended solids as low as 10-20 microns. They provide very efficient particle removal under the conditions of high filtration rate. Inside a sand-anthracite filter is a layered bed of filter media. Modern water-treatment plants now use rapid dual-media filters following coagulation and sedimentation.

Waste Water Treatment Plant

Our range of products include Wastewater Treatment Plants such as Effluent Treatment Plants, Sewage Treatment Plant & Zero Liquid Discharge Plant. With the aid of well-informed professionals, we are providing a wide series of Wastewater Treatment Plant. Our presented plant is developed by experts who have rich experience of this area. Experts purchase the material from the renowned merchants of the market to keep the universal industry principles. In addition, our plant is made keeping in mind the set guidelines of the industry.
These plants are developed by experts who have prosperous industry acquaintance. To preserve the quality, experts make our plants employing the optimum quality material which is procured from industry retailers. Our clients can attain from us these plants in diverse specifications.
Sewage Treatment Plants are used to treat the waste water which comes from domestic, industrial & institutional sector by removing unwanted material which may be harmful for the environment in anyway. The system outlet is eco-friendly fluid waste which can be used again & can be reused in other applications or into sewage without any harm to environment. Effluent treatment plants are designed to treat the wastage coming in liquid state coming from different sources that may be harmful for the environment.

Zero Liquid Discharge Plant (ZLD)

ZLD (zero-liquid discharge) is a water treatment process in which all wastewater is purified and recycled; therefore, leaving zero discharge at the end of the treatment cycle. ZLD (ZERO LIQUID DISCHARGE) is an advanced wastewater treatment method that includes ultrafiltration, reverse osmosis, evaporation/crystallization, and fractional electrode ionizations. System operates on the basis of evaporative process or membrane process or joint technique of both. ZLD System helps in money savings, meeting stringent pollution control board norms pertaining to all type of tower blow down removing waste liquid and converting all into solid dry waste for disposal. ZLD systems recycle all the discharged liquid simultaneously giving nil waste water or effluent. We have wide range of newly designed units as today’s market requirements.

ION Exchange Systems

Ion Exchange water treatment system needs when we have requirement of water free of Ions & Salts.It removes all contaminants in surface & ground water through Ion Exchange Resin. We have all type of system like Water Softener DM Plant, Mixed Bed available in automatic, Manual operated along with Multiport Valve in different metallurgy ie FRP, MSRL&MS.

Condensate Polishing Unit

This unit filter condensed water from steam through resin that can capture corrosion product in return line or condensate steam. Through this unit we can remove suspended solids ,foreign particles & corrosive ions from steam.

DM plant and mixed bed plant
DM Plant is a demineralized plant & mixed bed consisting two units Cation & Anion unit used for the maximum removal of TDS uptill desired level. In our plants replace the impurities with Hydrogen & Hydroxyl ions to make ultrapure water.











Softeners
Our softeners plant replaces permanent hardness with Na+ ions to produce ultra-soft water thus reducing Scaling Completely.

Desalination System

Desalination

his is a separation process used to reduce the dissolved salt content of saline water to a usable level. All desalination processes involve three liquid streams: the saline feedwater (brackish water or seawater), low-salinity product water, and very saline concentrate (brine or reject water). The saline feedwater is drawn from oceanic or underground sources. It is separated by the desalination process into the two output streams: the low-salinity product water and very saline concentrate streams. The use of desalination overcomes the paradox faced by many coastal communities, that of having access to a practically inexhaustible supply of saline water but having no way to use it.

Electrodialysis

It is used to transport salt ions from one solution through ion-exchange membranes to another solution under the influence of an applied electric potential difference. This is done in a configuration called an electro dialysis cell. The cell consists of a feed (dilute) compartment and a concentrate (brine) compartment formed by an anion exchange membrane and a cation exchange membrane placed between two electrodes.

Thermal Desalination
The thermal desalination separate sea and brackish water into two flows consisting of a freshwater stream (permeate in reverse osmosis, condensate in thermal processes) with a low salt content and a stream with a high salt concentration (brine or concentrate).

Reverse Osmosis Systems

In Osmosis process, the solvent naturally moves from an area of low solute concentration through a membrane, to an area of high solute concentration 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.
Reverse osmosis differs from filtration in that the mechanism of fluid flow is by osmosis across a membrane. The predominant removal mechanism in membrane filtration is straining, or size exclusion, where the pores are 0.01 micrometres or larger, so the process can theoretically achieve perfect efficiency regardless of parameters such as the solution's pressure and concentration. Reverse osmosis instead involves solvent diffusion across a membrane that is either nonporous or uses nanofiltration with pores 0.001 micrometres in size. The predominant removal mechanism is from differences in solubility or diffusivity, and the process is dependent on pressure, solute concentration, and other conditions.[2] 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.

Electrodeionization (EDI)

High purity water production has traditionally used a combination of membrane separation and ion exchange processes. It combines semi-impermeable membrane technology with ion-exchange media to provide a high efficiency demineralization process. It employs electrical current and specially-prepared membranes which are semi permeable to ions based on their charge, electrical current, and ability to reduce the ions based to their charge. Through electro dialysis an electrical potential transports and segregates charged aqueous species. The electrical current is used to continuously regenerate the resin, eliminating the need for periodical regeneration. Our ergonomically designed world-class EDI plants have minimal footprint and require minimum maintenance while delivering optimized performance, consistent product quality, and ultra-pure water with high silica and boron rejection.