|
| Introduction :: |
The MCF process involves the screening of raw water through retention of Micro particles & micro organigms on SPUNY PORUS surface. MCF reduces the number of unit processes for clarification. it also increases plant compactness and process automation. With the same water treating capacity, MCF plants can be much smaller than conventional plants. In addition, The MCF process produces less sludge since it doesn't use chemical coagulants or polymers.
MCF separates particles of size 0.1 microns (um) through 10 um. MF membranes have received particular attention because of their ability to remove turbidity, particles and coliform bacteria. Although MF isn't serious |
 |
|
obstacle for viruses, when used in conjunction with a disinfection process, it can control microorganisms in the feed water. MF includes two common forms of filtration: cross flow separation and dead-end filtration . In cross flow separation, a fluid runs parallel to a membrane. There's some pressure involved across the membrane, which causes some of the fluid to pass through the membrane, while the remainder continues to move across the membrane, cleaning it. In dead-end filtration, or per-pendicular filtration, all of the fluid passes through the membrane, and all of the particles that cannot fit through the pores of the membrane are stopper.
|
| Principle :: |
The MCF works on principle of retention and removalof physical impurity in a Micron graded manner through Spun Media.
|
| Process :: |
This is a Stainess Steel Inside Rubber Lining (SSRL) pressure vessel, with internal distribution & collection systems. The inlet & outlet connection with Isolation Valves along with micron filter cartridge & requisite instrument.
|
| Function :: |
The micron physical impurities of raw water i.e. suspended solids, dirt, dust, & all visible particles are removed in MICRON CARTRIDGE FILTER up to micron.
|
| Resultant :: |
| The system reduces the physical impurity load to less then 5 -10 micron taking load of 40 microns of suspended impurities. |
| |
| Operating Data :: |
| Capacity : 1 M3 and Above |
 |
* No of stages . . . One and above |
|
* Mode of system Operation . . . Manual |
|
* Feed Water Flow Rate . . . 1 M3 and above |
|
* Product Flow Rate . . . 1 M3 and above |
|
* Feed Water Pressure . . . 2.0 - 3.5 Kg/Cm2 |
|
* Working hours / day . . . 20 Hrs. |
|
* Product Water produced/day . . . 20 M3 and Above |
|
| |
| Feed Water Limited Conditions :: |
|
Turbidity ..... Less then 40 Micron |
|
Silt Density ..... Less then 10 Micron |
|
Heavy Metal ….. Nil |
|
|
| Water Route :: |
| Micro Cartridge Filter |
| Qty |
As per Design Flow Rate |
| Stage |
As Per Design Flow rate |
| M.O.C. |
SSRL 316L |
| Operating Pressure |
2.0 - 3.5 KG/CM2 |
| Operating Flow Rate |
1 M3 and Above |
| Type of Media |
Cartridge |
|
| |
| Shell (Stages - As Per Design Flow rate ) |
| MOC |
SS316L |
| Dia |
As Per Design standard (MM) |
| Height |
As Per Design standard (MM) |
| Thickness |
As Per Design standard (MM) |
|
| Pipe |
| MOC |
SS 316 |
| Schedule |
10 |
| Inlet connection |
As Per Design standard (MM) |
| Outlet connection |
As Per Design standard (MM) |
| Type of connection |
FLANGED |
|
| |
| Cartridge |
| Type |
Spun |
| Qty |
As Per Design Flow rate |
| Rating |
5 - 10 MICRON |
| Dia |
As Per Design standard (MM) |
| Length |
As Per Design standard (MM) |
| Make |
As Per IIECI |
| Accuracy |
+5% As Per Design standard |
|
| |
| Instrument : (Pressure Gauge) |
| Qty. |
One |
| MOC |
SS |
| Range |
0-7 kg. |
|
| |
| |
| |
