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Nano Filtration In Water Supply Systems

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Aqeel Ahamad
Aqeel Ahamad

Man is completely dependent on water.Hence pure water is essential for many purposes.Though till now many filtration techniques have been introduced so far, using of nano technology make as the purest form of water. Nanofiltration is a relatively recent membrane filtration process used most often with low total dissolved solids water such as surface water and fresh groundwater, with the purpose of softening ( polyvalent cation removal) and removal of disinfection by-product precursors such as natural organic matter and synthetic organic matter. Though this paper concentrates on function of nanofiltration,it also elaborates the applications,needs and dis advantages of it.

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KSRM COL LEGE OF ENGINEERING M.AQEEL AHAMAD
CONTENTS INTRODUCTION OF FILTRATION NEED FOR FILTRATION PROCESSES OF FILTRATION COMPARISION OF VARIOUS PROCESSES OF FILTRATION BENEFITS OF NANO FILTRATION DISADVANTAGES OF NANOFILTRATION HOW TO OVERCOME THE DEMERITS OF NANO FILTRATION
MEMBRANE PROCESSES Generally, there are four types of membrane processes, Microfiltration. Ultrafiltration. Nanofiltration. Reverse Osmosis.
Applications of Micro- and Ultrafiltration: Conventional water treatment (replace all processes except disinfection). Pretreat water for R.O and nanofiltration. Iron/Manganese removal (after oxidation). Applications of R.O. and nanofiltration: R.O. application mostly desalination. Nanofiltration first developed to remove hardness. Nanofltration can also be used to remove pesticides.
HISTORY OF NANOFILTRATION During 1970s RO membranes with greater operating pressures was developed. This resulted in considerable increase in energy cost. Thus, low-pressure RO membranes were developed and came to be known as NF membranes. By the second half of 1980s,NF became established. Starting in early 1990s, it had became common and various applications were found out.
NEED FOR NANOFILTRATION Increasing demand of good quality water due to increasing population. Reducing the wastage and reuse of water. Better reliability and durability of filter membranes. To reduce the overall cost of operation.
Materials used in NF membranes Different polymers used are polyethersulfone, polysulfone, polyphenylsulfone, polytetrafluoroethylene, polyvinylidene fluoride, polyacrylonitriles, nylon, polypropylene, cellulose acetate (CA), regenerated cellulose, and composites. Ceramic and cintered metals. carbon nanotubes.
Two types of membranes: i. Spiral membranes ii. Tubular membranes But surface area of spiral membranes is greater than that of tubular membranes and hence greater capacity.
SPIRAL MEMBRANE : Cheapest, more sensitive to pollution.
TUBULAR MEMBRANE Not easily polluted
Benefits of Nanofiltration Low cost of operation. Low energy cost. Lower discharge and less waste water than typical Reverse Osmosis system. Reduction of Heavy Metals (removes 95%). Reduction of water hardness. Reduction / Removal of viruses, bacteria and Pesticides.
Reduction of Nitrates and Sulphides. Reduction of the salt content (brackish water). Chemical - Free filtration (No use of salt). pH of the water can be altered for better health. Ideal for municipal water supply, well water, river and rain water. Removes Iron, Lime and other problem causing chemicals often neglected by water softeners.
Distinct properties of Nanofiltration The pore size of a NF membrane corresponds to a molecular weight cut-off of 300-500g/mol. Hence, separation of these components from higher molecular weight components can be achieved. Nanofiltration membranes have a slightly charged surface. The dimensions of pores are close to dimensions of ions and hence charge interaction takes place. It can be used to separate ions with different valences.
Various Applications: 1. Industrial applications: Food and dairy sector. edible oil processing sector. Petroleum industry. Drug industry. Paper pulp industry 2. Water treatment. 3. Desalination of water. 4. Water softening.
Drawbacks of the process of Nanofiltration: 1. Membrane fouling. 2. Insufficient separation. 3. Treatment of concentrates. 4. Membrane lifetime and chemical resistance. 5. Insufficient rejection for individual components.
There are various ways to reduce the fouling such as: Periodic pulsing of feed. Periodic pulsing filtrate (backwashing). Increasing shear by rotating membrane. Vibrating membrane.
Pretreatment. Pretreatment of feed water greatly influences the performance of NF installations. The application of a pre-treatment has several benefits: Membranes have a longer life-span when pre-treatment i performed. The production time of the installation is extended. The management tasks become simpler. The employment costs are lower.
SINCE PURIFIED WATER IS NECESSARY TO EVERY ONE,NOW OR THEN THE WORLD SHOULD BE DEPENDENT ON NANO TECHNOLOGY.THUS IT IS EVIDENT THAT NANOFILTRATION WILL PLAY A VITAL ROLE IN PROVIDING A QUALITY,USABLE FORM OF WATER IN THE FUTURE.
Nano Filtration In Water Supply Systems
Nano Filtration In Water Supply Systems

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Nano Filtration In Water Supply Systems

  • 1. KSRM COL LEGE OF ENGINEERING M.AQEEL AHAMAD
  • 2. CONTENTS INTRODUCTION OF FILTRATION NEED FOR FILTRATION PROCESSES OF FILTRATION COMPARISION OF VARIOUS PROCESSES OF FILTRATION BENEFITS OF NANO FILTRATION DISADVANTAGES OF NANOFILTRATION HOW TO OVERCOME THE DEMERITS OF NANO FILTRATION
  • 3. MEMBRANE PROCESSES Generally, there are four types of membrane processes, Microfiltration. Ultrafiltration. Nanofiltration. Reverse Osmosis.
  • 4. Applications of Micro- and Ultrafiltration: Conventional water treatment (replace all processes except disinfection). Pretreat water for R.O and nanofiltration. Iron/Manganese removal (after oxidation). Applications of R.O. and nanofiltration: R.O. application mostly desalination. Nanofiltration first developed to remove hardness. Nanofltration can also be used to remove pesticides.
  • 5. HISTORY OF NANOFILTRATION During 1970s RO membranes with greater operating pressures was developed. This resulted in considerable increase in energy cost. Thus, low-pressure RO membranes were developed and came to be known as NF membranes. By the second half of 1980s,NF became established. Starting in early 1990s, it had became common and various applications were found out.
  • 6. NEED FOR NANOFILTRATION Increasing demand of good quality water due to increasing population. Reducing the wastage and reuse of water. Better reliability and durability of filter membranes. To reduce the overall cost of operation.
  • 7. Materials used in NF membranes Different polymers used are polyethersulfone, polysulfone, polyphenylsulfone, polytetrafluoroethylene, polyvinylidene fluoride, polyacrylonitriles, nylon, polypropylene, cellulose acetate (CA), regenerated cellulose, and composites. Ceramic and cintered metals. carbon nanotubes.
  • 8. Two types of membranes: i. Spiral membranes ii. Tubular membranes But surface area of spiral membranes is greater than that of tubular membranes and hence greater capacity.
  • 9. SPIRAL MEMBRANE : Cheapest, more sensitive to pollution.
  • 10. TUBULAR MEMBRANE Not easily polluted
  • 11. Benefits of Nanofiltration Low cost of operation. Low energy cost. Lower discharge and less waste water than typical Reverse Osmosis system. Reduction of Heavy Metals (removes 95%). Reduction of water hardness. Reduction / Removal of viruses, bacteria and Pesticides.
  • 12. Reduction of Nitrates and Sulphides. Reduction of the salt content (brackish water). Chemical - Free filtration (No use of salt). pH of the water can be altered for better health. Ideal for municipal water supply, well water, river and rain water. Removes Iron, Lime and other problem causing chemicals often neglected by water softeners.
  • 13. Distinct properties of Nanofiltration The pore size of a NF membrane corresponds to a molecular weight cut-off of 300-500g/mol. Hence, separation of these components from higher molecular weight components can be achieved. Nanofiltration membranes have a slightly charged surface. The dimensions of pores are close to dimensions of ions and hence charge interaction takes place. It can be used to separate ions with different valences.
  • 14. Various Applications: 1. Industrial applications: Food and dairy sector. edible oil processing sector. Petroleum industry. Drug industry. Paper pulp industry 2. Water treatment. 3. Desalination of water. 4. Water softening.
  • 15. Drawbacks of the process of Nanofiltration: 1. Membrane fouling. 2. Insufficient separation. 3. Treatment of concentrates. 4. Membrane lifetime and chemical resistance. 5. Insufficient rejection for individual components.
  • 16. There are various ways to reduce the fouling such as: Periodic pulsing of feed. Periodic pulsing filtrate (backwashing). Increasing shear by rotating membrane. Vibrating membrane.
  • 17. Pretreatment. Pretreatment of feed water greatly influences the performance of NF installations. The application of a pre-treatment has several benefits: Membranes have a longer life-span when pre-treatment i performed. The production time of the installation is extended. The management tasks become simpler. The employment costs are lower.
  • 18. SINCE PURIFIED WATER IS NECESSARY TO EVERY ONE,NOW OR THEN THE WORLD SHOULD BE DEPENDENT ON NANO TECHNOLOGY.THUS IT IS EVIDENT THAT NANOFILTRATION WILL PLAY A VITAL ROLE IN PROVIDING A QUALITY,USABLE FORM OF WATER IN THE FUTURE.