Point-of-Entry Water treatment system - Product

 Seoul  -  South Korea
Point-of-Entry Water treatment system
  • Point-of-Entry Water treatment system
Point-of-Entry Water treatment system
Water purification system for Environmental


(Product Introduction)
POE Systems is an ideal water treatment system which can supply pure and safe water to where water supply problems caused by lack of water infrastructure or groundwater pollution su...

Description of the Product

Point-of-Entry Water treatment system
Water purification system for Environmental


(Product Introduction)
POE Systems is an ideal water treatment system which can supply pure and safe water to where water supply problems caused by lack of water infrastructure or groundwater pollution such as schools, government offices, military camps, houses far from the city and farms.

(Suitable Places of Installation)
  • Point-of-Entry Water treatment system for the purification of ground water : Vulnerable area of water supply where densely populated places far from metropolitan city.
  • Point-of-Entry Water treatment system of drinkable water for livestock : Some area where source water is seriously polluted due to lack of treatment system of sewage or leachate-contaminated caused by livestock infection.

(Advantages of POE System)
  • Economic Solution of Drinking Water : POE System could be installed at schools, government offices, military camps, houses far from the city and farms to provide fine and drinkable water with reasonable costs instead of large plants which require much of expenses.
  • Easy Installation & Operation : POE System provides clean and safe water for all necessary needs from raw water by easy installation and operation in every places.

(Selective POE System)

RO Membrane POE Water Treatment system (Model No. HIRO Series)
  • Max. 7stage Water Treatment System
  • Easy to installation and Move by Simple Structure
  • Max. 20ton produced in one day.
  • Automatic Control System
  • Automatic Filter Cleaning
  • Smart Remote Control and Monitoring System(Option)

 ->Description
  • Treatment processes : Muli-media iron removal filter-De-ionizing filter-Micro filter-RO Membrane-Activated carbon block filter-UV sterilizer(Option)-Smart filter(UF)
  • Product flow rate : 200-800L/hr
  • Product water quality : Drinkable water
  • Power consumption : Depends on conditions at installation sites

 ->Product Scheme
  • Material of Skid frames and cover plates: EGI Steel. Painted
  • Piping: Clean PVC
  • Skid dimension: 1200×790×1470

Compact RO system (Model No. WCRO-140F)
  • Max. 7stage Water Treatment System
  • Easy Installation by Simple Structure in Small Place
  • Max. 8ton produced in one day
  • Automatic Control System
  • Automatic Filter Cleaning
  • Smart Remote Control and Monitoring System(Option)

 ->Description
  • Treatment processes : De-ionizing filter (Ca2+, Mn2+ removal filter) - Multi-media iron removal filter - Micro filter - Reverse osmosis membrane - Activated carbon block filter - UV sterilizer - Smart filter (UF)
  • Product flow rate : 5㎥/d
  • Product water quality : Drinkable water
  • Power : approx. 1 kW
  • Operation mode : Automatic control

 ->Product Scheme
  • Material of Skid frames and cover plates: EGI Steel (steel with epoxy coated)
  • Piping: PVC or LLDPE tube
  • Skid dimension: 1000×800×2000(H)

Whole House (Nano or Eco) POE System (Model No. WHNS/WHES Series)
  • Max. 5stage Nano or Eco Filtration System(Option)
  • Easy Installation by Simple Structure in Small Place
  • Max. 3.6ton produced in one day
  • Automatic Control System
  • Automatic Filter Cleaning
  • Automatic operation by Inverter pump(option)
  • UV Sterilization System(Option)

 ->Description
  • Treatment processes : Automatic Mesh–Multi Media–Water Softner– 20”Jumbo Nano or 20”Jumbo Eco Mac–UV filter(Option)
  • Product flow rate : 20-25L/min ( 3~4kgf/㎠ )
  • Product water quality : Cleaning, Washing, Bathing, Cooking, Drinking
  • Operation mode : 
        1) WHNS-01 & WHES-01: Inverter Automatic Priming Pump
        2) WHNS-02 & WHES-02: Self-Priming Pump or Manual
        3) WHNS-03 & WHES-03: No Pump
  • Power consumption : Depends on conditions at installation sites

 ->Product Scheme
  • Material of Skid frames and cover plates: EGI Steel. Painted
  • Piping: Clean PVC
  • Skid dimension: 880(W) x 770(D) x 1360(H)

Nano Membrane POE Water Treatment (Model No. WWA-NF30 Series)
  • Max. 6stage Nano Filtration System(Option)
  • Easy to installation and Move by Simple Structure
  • Max. 25ton produced in one day
  • Automatic Control System
  • Automatic Filter Cleaning
  • Smart Remote Control and Monitoring System(Option)

 ->Description
  • Treatment processes : Multi media – Water Softner - Micro filter – Nano Membrane Filter - CTO Filter -> UV Filter
  • Product flow rate : 25 m³/d
  • Product water quality : Drinkable water
  • Operation mode : Automatic control
  • Power consumption : Depends on conditions at installation sites

 ->Product Scheme
  • Material of Skid frames and cover plates: Steel with epoxy coated
  • Piping: Clean PVC
  • Skid dimension: 1150(W) x 800(D) x 1100(H)

Price of the Product

Price not indicated

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By their very nature, industrial discharges contain pollutants which have to be treated before they can be piped out.Given the wide variety of industrial processes, there are many different pollutants, each of which has to be treated specifically.However, so-called "PHYSICAL-CHEMICAL" processes involve a series of techniques which can be used to treat many different pollutants simply and at a reasonable cost. The various processes used in PHYSICAL-CHEMICAL plants are:OxidationCorrection of pHPrecipitationReductionCoagulationFilteringNeutralisationFlocculationTreatment of sludgeEach discharge needs to be treated with some or all of these processes, depending on the pollutants it contains. PHYSICAL-CHEMICAL plants are most often used in situations where it is necessary to eliminate solids and/or perform chemical treatments such as oxidation, reduction and precipitation. This is the case in a variety of industries, including: GalvanisingChemical manufactureMetal processingFood IndustryDepending on the flow to be treated and even on the specific treatment, the PHYSICAL-CHEMICAL plant can perform the processes continuously or by loads. As a result, the different reaction modules have to be adapted to the different types of process. The reaction modules are made of plastic and can be arranged to make the best use of the space available. They can also be mounted on frames for easy transport and installation. And because these facilities are modular in design, they can be enlarged as required.Large volume discharges require plants with civil engineering work and special coatings to keep the plant in optimum condition. However, the processes are the same as in smaller plants.The best option for separating solids in continuous processes - a key part of many of the physical-chemical processes - is to use package precipitators, because they give the best performance in a much smaller space than that occupied by electrostatic precipitators. Separated sludge needs to be dehydrated before being deposited at authorised sites. This process is performed using filter elements or heat-drying techniques.However, filter presses are the most commonly used option, given their economy and simplicity. They are operated hydraulically, either manually, automatically or semi-automatically.Although not all physical-chemical processes are particularly complex, control and monitoring is carried out from a control panel containing the protection elements, the actuators and the automated systems, with an illuminated synoptic diagram showing the state of operation of each element and the various steps in the process. Given the nature of the treatment operations, certain chemicals need to be added under controlled conditions. This operation is performed from an easily-accessible tank area, using sets of precise dosing pumps with high chemical resistance to protect them against the products being handled.Design of the process flows and process geometry takes into account all the options of gravity transfer, especially in continuous treatments, to simplify as far as possible the pump sets and minimise the problems that these inevitably cause.These pumping elements are chosen according to the physical characteristics of the substances to be pumped and their position in the plant. Pneumatic and centrifuge pumps are common in this type of facility.