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MULTIPLE EFFECT EVAPORATOR PLANT
Led by the team of efficient professionals, we are able to offer Multiple Effect Evaporator, Plants to our clients. These plants are made using high quality raw component in tandem with international quality standards. Owing to their easy installation, rugged construction and longer functional life, our evaporator plants are highly demanded in the market.
Multiple Effect Evaporator Plants are extensively catering to the needs of textile, pharmaceutical, automobile, chemical and dyeing industries.
FALLING FILM EVAPORATORS
- The Liquid to be concentrated is preheated to boiling temperatures; even thin films enters the heating tube via distributors in the head of the evaporator, flow downward at boiling temperature and is partially evaporated.
- Spreading of liquid to each tube and forming the thin film across area of the tube is the principle of falling film evaporator.
- It can be used for processing liquors, which are sensitive, have a high rate of specific heat transfer, for low fouling, low viscous fluid & for non crystalline solutions.
FORCED CIRCULATION EVAPORATORS
- In Forced Circulation Evaporator the liquid is pumped in the tubes with high velocity. As the liquid enters the separator where the absolute pressure is slightly less than in the tube bundle, the liquid flashes to form a vapor.
- It is suitable for use with materials which tend to foul the heat transfer surfaces and where crystallization can occur in the evaporator in the vapour separator.
- Stripper systems are used to recovering low boiling solvents form waste water.
- By using stripper, COD reduce in MEE Plant condensed water.
PRODUCT RECOVERY PLANTS
We have supplied product recovery plants to recover products as below:
CONCENTRATION PRODUCTS :-
- Dextrose Concentration- Sodium Acetate- Amino acid Concentration- Phosphoric Acid
- Milk Concentration
SALT RECOVERS : -
- Sodium Sulphate
- Zinc sulphate
- Sodium Chloride
- Manganese sulphate
- Sodium Thio Sulphate
- Sodium Sulphite
- Ammonium Sulphate
|Capacity (KLD/MLD)||1 KLD - 1 MLD|
|Application Industry||Sugar Industry|
|Inlet Flow Rate(m3/day or m3/hr)||1000 m3/day|
|Treatment Technology||Mixed Bed Bio Reactor(MBBR)|
|Water Source||Industrial Effluent, Municipal Sewage, Commercial Waste Water|
|Treatment Stages||Preliminary Treatment, Disinfection, Tertiary Treatment, Primary Treatment, Secondary Treatment|
|Deliver Type||PAN India|
|Installation Type||Completes Civil work with Installation, Prefabricated|
|I Deal In||New Only|
|Country of Origin||Made in India|
|Type||Disc-tube Module Components|
|Application||Zero Liquid Discharge|
|Usage||Mineral water plant machinery|
Application industries are also Sugar industry, Dairy industry, Pharmaceuticals industry, Distillery, Paper mills, Leather industries, Chemical/petroleum industries, Automobile industries, Slaughter house.
Feeb flow rate are also 50 m3/day, 100 m3/day, 500 m3/day, 1000 m3/day, 2000 m3/day
Capacity inlet flow rate are also 100 m3/hour, 500 m3/hour, 1000 m3/hour, 2000 m3/hour, 5000 m3/hour, 10000 m3/hour.
Automation grade are Automatic, Semi automatic, manual
The power industry as well as oil & gas, chemical, petrochemicals, mining and other industries generate large volumes of waste water that must be managed. Commonly these wastewaters are discharged via a plant outfall to a surface water body, an evaporation pond, or in some cases deep well injected. However, there are growing environmental concerns regarding such discharge practices, which has resulted in the development of Zero Liquid Discharge (ZLD) processes.
Zero liquid discharge can be defined broadly as a process for maximum recovery of water from a waste water source that would otherwise be discharged. This water is beneficially reused and the salts, and other solids contained in the waste water are produced and generally disposed of in a landfill.
The drivers for zero liquid discharge include a growing concern by the public about the impact of such discharges on the environment, and in many areas of the world, water is a scarce resource. Such concern is resulting in increased regulation and limitation of waste water discharges. Even without regulatory push, many companies in various industries are mandating initiatives for reducing water discharge by recycle reuse, as well as ZLD, to reduce their environmental footprint and improve sustainability.
Zero liquid discharge can be achieved in various ways. There is no “one size fits all” solution, as the optimal system design is site specific. The wastewater composition, various streams to be treated, site specific operating costs, footprint availability and other factors are determining factors for an optimal design.
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