http://WWW.ASIANAQUAPARK.ORG
ASIANAQUA 5aa7985ebe98920a54d1c17c False 17 13
OK
background image not found
Found results for
'mineral salts present'
Industrial RO Plants INR   0 INR  0
-NaN%

Industrial RO Plants

What is Reverse Osmosis? Reverse Osmosis is a technology used for removing the large amount of contaminants from the water by passing the water through the semi-permeable membrane. What is RO plant? A reverse osmosis plant is basically a manufacturing plant in which the reverse osmosis process takes place. The RO plants desalinate the water using the six kilo-watt hours of electricity ending in an amount of salty briny waste. What are industrial RO plants? This module is vital for industrial RO water planter’s for the safer operations. Industrial RO plants are designed after analyzing completely. These plants helps in determining the hardness and contaminants of the water and determining the pre conditioning required. Process of industrial RO plants Raw water pump (to generate pressure) Pressure sand filter (PSF) [filter water by pressure sand] Activated carbon filter (ACF) (to remove odor, color, oil, and chlorine) Micron cartridge filter (MCF) (for removing micron sized particles) Antiscalant dosing system (for preventing membrane from scaling) High pressure pump (for supplying the feed water to RO system) Ro membrane element ( rejecting 90 – 95% of total dissolved solids) Treated (RO) water (to store treated (pure) water in tank) Features of industrial RO plants Excellent functioning Fully automatic operation Uses sustainable energy resources Longer operational life Reduces the energy consumption Requires lesser maintenance Improves the process of desalination Long durable Innovates the areas to treat the wastes Easy to install Compact design Optimal Performance Durable finish standards Vigorous construction Excellent performance Sturdy construction Industrial Applications Package Drinking Water industries Pharmaceutical Industries Ion Exchange Pre-treatment Safe Drinking Beverage Production Water Boiler Feed Water Mineral water plants chemical industries to reduce regeneration Pure water for industrial purpose Extra pure water for electronic purpose Industry Boiler water replenishment Seawater desalting Commercial water treatments Recycling processes Benefits of industrial RO plants Efficient & economical method for removing dissolved solids Easy to start up Spares and services are easily available Delivered within short span of time Compact & modular Can be easily specified from wide range Visually monitored

INR 0 INR 0

Availability:True

Pay mode:COD only

view details
E-Softener INR   0 INR  0
-NaN%

E-Softener

What is E-softener? E-softener plants are the best solutions for treating all hard water related problems with zero water wastage and zero maintenance once after it gets installed. These E-softeners does not require any type of salts, chemicals, or electricity. It benefits by providing complete stoppage of hard scaling. E-softener helps the water improve the oxidation and surface tension of the water thereby improving the working condition of the plants. It can also help in growing the algae which in turn keeps the water fresh. E-softener plants are suitable for Drip irrigation and Sprinkle systems. These E-softeners are available in variety of sizes and it is applicable for all fields. Principle behind E-softener plants working E-softener plants works with a principle of electro-magnetic treatment which is based on the fact of creating an oscillation field of energy by using the high frequency radio square waves. The plants will produce a unique square waves which can sweep the entire frequency responses ranging from 1000 to 15000 HZ at a rate of 10 times per second. When the oscillating field’s strength varies with respect to the time and changes, an induced current will be produced inside the pipe line. This is called the Faraday’s law of induction. Features of E-softener plants Easy to install Maintenance free Enhanced durability Fits to all environment Processes salty water and chemical content water Capable of retaining the healthy minerals Free from pressurizations Requires lesser space Safe to operate Low running cost Requires lower power consumption Effective on using copper or steel pipes Industrial Applications Pharmaceutical industries Hospitals and healthcare Hotels and resorts Food processing units Cooling tower feed water Boiler feed water Humidification and air conditioning applications Oil and gas industries Restaurants Heating system applications Benefits of utilizing E-softener’s When utilized in industrial operations, keeps machines from corrosion Variety of cost effective standard models available Can produce good quality of water Treated waters are clean, soft, and smooth For constantly monitoring the quality of output Preserves the life of all appliances using this Helps in reducing the greenhouse gas

INR 0 INR 0

Availability:True

Pay mode:COD only

view details
Demineralization Plants INR   0 INR  0
-NaN%

Demineralization Plants

What is Demineralization? Demineralization is the process of removing the mineral salts present in water by using the ion exchange process. Demineralization removes all the mineral salts like calcium, sodium, copper, iron, and nitrates and Chlorides. Demineralized water is pure water freed from dissolved materials as a result of any one of the following process: Deionization Distillation Membrane filtration (Reverse Osmosis or Nano filtration) Electro dialysis Or other technologies What are Demineralized (DM) plants? Demineralized plants will produce the demineralized water through the process of ion exchange technology. Using the DM pants will help in reducing the scale formation, corrosion and deposition of tubes which in turn increases the life of pipes and tubes that are present in plants. The main benefit is that it prevents blades from corrosion when they are utilized in turbines. Types of Demineralized (DM) plants Demineralized plants are available in various types as listed below: DME/DMHE DMCE UPCORE (UPflow COuntercurrent REgeneration) MB/MBA Two bed DM plants Mixed bed DM plants (When it comes the need for getting high-purity Demineralized Water, using the Mixed Bed demineralizer is the best choice) Features of Demineralized (DM) plants Enhanced durability Remarkably remove ionic material from water Design based on industrial approval Rigid construction Compact size Easy to operate Corrosion resistant Less maintenance High functionality Longer operational life Low cost Rust free Smooth functioning Industrial Applications Pharmaceutical industries Chemical industries Thermal power plants Textile industries Beverage production Cooling water make up Semi-conductors laboratories Boiler feed water Hospitals and other commercial applications Water treatment plants for removal of calcium and magnesium salts Benefits of utilizing Demineralized (DM) plants? Used for treating high pressure boiler feed water Easy to install Variety of cost effective standard models available Can produce good quality of water Complete removal of dissolved solids Complete Assembly with backwash Simpler distribution and collection systems Mixed bed option for greater purity conductivity meter For constantly monitoring the quality of output

INR 0 INR 0

Availability:True

Pay mode:COD only

view details
Water Softener Plants INR   0 INR  0
-NaN%

Water Softener Plants

What necessitates the use of water softener plants? Hardness is of two types as carbonate hardness (known as temporary hardness) and Non-carbonate harness (permanent hardness). The level of water’s hardness increases when the calcium and magnesium ions dissolve more. Ions are originated from limestone sediments &carbon dioxide present in water. Here comes the necessity to soften the hardness of water through the process of ion exchange & this creates the necessity of using water softening plants which softens the hard water. What are Water softener plants? Water softener plants are a kind of water filters that removes the hardness of water due to the presence of calcium and magnesium. Those plants are designed to produces treated soft water that suits all the kinds of industrial applications having the low residual hardness through the entire service cycle. Synthetic resins are used to exchange sodium ion with hardness calcium and magnesium ions. Process of Water softener plants Water softener plants works under the principle of ion exchange process which is done through the resin. These plants will undesirably exchange the ions with the desired ions. The process includes passing raw water through a bed of cation resin in sodium form. The Calcium and magnesium ions are exchanged and the sodium ions are relinquished. Types of Water softener plants Numerous types of water softener plants are available in the market based on the latest and advanced technology. Chemical Water Softeners (used in Laundry) Packaged Water Softeners (2 types as) Precipitating Non-precipitating Automatic water softener Stainless steel RO water softener Automatic sodium exchanger water softener Fully Automatic Water Softener electric single tank softener hydraulic twin tank softener Features of Water softener plants User friendly operations Hassle-free operation Durable structure Non-corrosive Rigid design Longer service life Smooth operation Efficient functionality Long working life Cost effective and lesser maintenance Compact design Automatic regeneration Low power consumption Light weight & compact Industrial Applications Hospitals and healthcare Hotels and resorts Boiler Feed Food processing units Textile Industries Dyeing processes Beverage Production chemical Industries Air Conditioning Plant Water power plants Pharmaceutical industry Oil and gas Restaurant Heating system Commercial and Institutional water power plants Benefits of Water softener plants Provide continuous supply of water Reduces residues Makes cleaning easier and inexpensive Prevents against hard water spots Increases the life span of water utilizing appliances.

INR 0 INR 0

Availability:True

Pay mode:COD only

view details
Sewage Treatment Plants (STP) INR   0 INR  0
-NaN%

Sewage Treatment Plants (STP)

What is Sewage treatment? Sewage treatment is a process referred to removal of contaminants, micro-organisms, and all the other types of pollutants present in the waste water (both raw sewage and industrial waste. Sewage treatment includes chemical, physical, and biological processes removing the contaminants from those processes. What are the sewage treatment plants (STP)? STP’s are involved in the treatment of sewage for removing the industrial wastes in which they help in the process of breaking down the solids to produce a cleaner and environment friendly effluent. STP’s can be offered in various specifications and customized options depending upon the client’s requirement. STP’s will process in the following sequence: Primary treatment (for removing smaller particles and suspended solids) Secondary treatment (for removing biological factors like bacteria) Tertiary treatment (for removing of specific contaminants that are not removed during conventional secondary treatment) Disinfection (Chlorine and Ultraviolet treatment) Sludge processing (sludge stabilization by lime addition or digestion) Types of Sewage treatment plants Currently, there are numerous types of sewage treatment plants available where they get varied by the way they treat the waste water. Types of STP’s are: Activated sludge plant (ASP) Packaged Sewage Treatment Plant Submerged aerated filter (SAF) Trickling filter Suspended Media Filters (SMF) Non-electric filter Rotating disc system Sequencing batch reactor (SBR) Features of Sewage treatment plants Compact designs Sturdy construction Rust free Hassle free performance Superior finish Captivating design User-friendly operation Enhanced service and longer life Odorless Low power consumption & Easy maintenance Rapid installation & Flexibility in reworking Highly premium quality & Advance technology Available at competitive rates Industrial Applications Sewage Treatment plants are capable of delivering the complete solutions to various industries for handling the various waste disposal problems. They are meant to be long durable and superior performance at a cost effective factor. Automobile industries Manufacturing Industries Textile Industries Foundry Dyeing Industries Food Industries Leather Industries Chemical Industries

INR 0 INR 0

Availability:True

Pay mode:COD only

view details
1
false