Product Description
Ultrafiltration - An ultrafiltration (UF) system uses hydrophilic capillary membranes to separate a high percentage of suspended and dissolved molecules. Only certain types of molecules, like water, can pass through the membrane. Other larger molecules, like organic compounds, proteins, oils, and suspended solids do not pass through the membrane and are left behind. The membrane is made of thin “hollow-fibers” with an inside diameter of between 0.8 and 2.0 mm with microscopic pores that let water pass through while acting as a barrier to stop dissolved and suspended particles. The UF membrane can be “backwashed” by pumping filtered water in opposite direction of the feed flow through the inside of the fiber. The efficiency of the backwash can be enhanced by adding chemicals (such as acid or hypochlorite) into the backwash water.
TECHNICAL DATA SHEET
Ultrafiltration - An ultrafiltration (UF) system uses hydrophilic capillary membranes to separate a high percentage of suspended and dissolved molecules. Only certain types of molecules, like water, can pass through the membrane. Other larger molecules, like organic compounds, proteins, oils, and suspended solids do not pass through the membrane and are left behind. The membrane is made of thin “hollow-fibers” with an inside diameter of between 0.8 and 2.0 mm with microscopic pores that let water pass through while acting as a barrier to stop dissolved and suspended particles. The UF membrane can be “backwashed” by pumping filtered water in opposite direction of the feed flow through the inside of the fiber. The efficiency of the backwash can be enhanced by adding chemicals (such as acid or hypochlorite) into the backwash water.
The system is designed to operate in conjunction with two customer-supplied tanks; the Raw Water Tank and the UF Filtrate Tank.
Ultrafiltration - An ultrafiltration (UF) system uses hydrophilic capillary membranes to separate a high percentage of suspended and dissolved molecules. Only certain types of molecules, like water, can pass through the membrane. Other larger molecules, like organic compounds, proteins, oils, and suspended solids do not pass through the membrane and are left behind. The membrane is made of thin “hollow-fibers” with an inside diameter of between 0.8 and 2.0 mm with microscopic pores that let water pass through while acting as a barrier to stop dissolved and suspended particles. The UF membrane can be “backwashed” by pumping filtered water in opposite direction of the feed flow through the inside of the fiber. The efficiency of the backwash can be enhanced by adding chemicals (such as acid or hypochlorite) into the backwash water.
The system is designed to operate in conjunction with two customer-supplied tanks; the Raw Water Tank and the UF Filtrate Tank.
Sl. No. |
Equipments
|
Specification |
Quantity |
1. |
UF FEED PUMP |
Flow : 11.0 m3/hr |
02 Nos. |
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|
|
|
2. |
BACK WASH PUMP |
Flow : 15.0 m3/hr |
02 Nos. |
|
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3. |
MICRO FILTERATION UNIT |
Flow : 10.0 m3/hr |
01 Set |
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4. |
UF MEMBRANE |
Membrane Material: Hydrophilic PES |
5 Nos. |
|
|
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5. |
DOSING PUMPS |
Capacity: 0-6 LPH |
03 Nos. |
|
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6. |
INSTRUMENTATION |
Rota meter: Two nos. On-Line flow meters will be provided. Make – Flowstar / PP Aquatech |
01 Set |
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7. |
CONTROL PANEL |
PLC based panel for automatic operation of the plant shall be provided. Internal cabling from the control panel to all the equipments will also be provided. |
01 Set |
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8. |
PIPING |
Complete piping with valves shall be provided for the plant. The MOC will be uPVC/cpvc, Make – Astral, Size - Suitable |
01 Lot |
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9. |
SKID |
MOC: SS 304 |
01 Set |
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