WATER The earth is so blessed with water resources that it is called the `WATER PLANET’. But a mere 2.5% of the earth`s water is fresh Water usable by human beings; the remaining 97.5% is Sea water. Now a days due to increase in population & industries, demand of Water has been increased rapidly. Pollution is also increases. Due to lack of water resource, Human Beings find new technology, called ` Reverse Osmosis’
Reverse Osmosis
Technical Presentation
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Reverse Osmosis Terminology Principles of Reverse Osmosis Types of R O Membranes Membrane Configurations
Typical Applications of Reverse Osmosis
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Industrial process water Production of potable water Food processing Waste treatment
Principles of Reverse Osmosis
Osmosi s
Dilute Solution
semi-permeable membrane
Concentrated Solution
The spontaneous flow of water from a dilute solution to a concentrated solution, when the two solutions are separated by a semipermeable membrane.
Osmotic Pressure P Dilute Solution
Concentrated Solution
P = ∆π The pressure that must be applied to a concentrated solution to prevent osmosis.
Reverse Osmosis P Dilute Solution
Concentrated Solution
P > ∆ π Reversing osmotic flow by applying a pressure in excess of the osmotic pressure
Three Cases of Osmosis P
π1
π2
osmosis
π1 < π2
π1 π2 equilibrium P = ∆π
P
π1
π
2
reverse osmosis P > ∆π
Factors Influencing Permeation Rates of Dissolved Materials
Greatest Influence: Electrical Charge Moderate Influence: Molecular Weight Slight Influence: Molecular Structure
FEED WATER LIMITING CONDITIONS Oxidizing
Agents like chlorine - Nil COD & BOD with in limit. OIL & GREACE NIL SDI LESS THAN 5. pH range 3 to 11 Turbudity – less than 1 NTU
Permeation Rates of Other Dissolved Species
• Dissolved Gases pass freely through the membrane.
• Many Dissolved Organics are weak acids.
Their rate of permeation will depend not only on their molecular weight and structure but on their degree of ionization. HX H+ + X-
Permeation Rates of Weak Acids
Weak acids are those acids that do not become completely ionized in water. Included in this group of acids are chromic, boric and many organic acids. H2CrO4
H+ + HCrO4-
HCrO4-
H+ + CrO4- -
H3BO3
H+ + H2BO3-
Reverse Osmosis Terminology PRODUCT
FEED
REJECT RECOVERY = PRODUCT FLOW / FEED FLOW SALT PASSAGE = PRODUCT TDS / FEED TDS SALT REJECTION = 100 – SALT PASSAGE IN %
Reverse Osmosis Terminology PRODUCT
FEED PRESSURE
REJECT PRESSURE
P = FEED PRESSURE – REJCT PRESSURE
REVERSE OSMOSIS System has divided into three parts. • PRE-TREATMENT • R.O. SYSTEM • POST TREATMENT
Reverse osmosis system Cleaning tank Pump (SS)
Pretreatment Cartridge filter Dosing system De-chlorination Filteration Coagulation Clarification
Cartridge filter
RO hydra block Membrances Pressure tubes HP pumps Control pannel
Cleaning system
DM plant pH adjustment Degassification
Post treanment
Schematic diagram of RO unit for waste water Activated carbon filter Coagulation, sedimentation, Chlorination
Product water
Sand filter
DESALATION SECTION Membrane modules
Waste brine
Dechlori nation.
High pressure pump
Anti scale
Cartridge filter
Block Diagram of RO ME
MB
SALT WATER
HIGH PRESSURE PUMP
RA
PRODUCT WATER
NE
REJECT WATER (CONCENTRATE)
(PERMEATE )
RO System components The basic expanded design of a single system includes the following: ●Raw water feed pump to supply water to the pre treatment ●Pre treatment system for Turbidity,TSS,Colloidal particles & Organic matter. ●Cartridge filter to remove micron size particle to control the SDI( Silt density index) of feed water ●Anti scalant dosing system. ●High pressure pump&feed control valve to pressurize the feed water. ●Membranes housed in Pressure tubes.
●A
reject control valve to control the recovery of the RO system. ●A
skid to mount to all mechanical equipment .
●Flow
indicators to measure permeate and reject flow
rates. ●Pressure
gauges for monitoring the differential pressures across the RO feed, reject and intermediate stages. ●Conductivity
& pH meter for measuring the quality of the permeate water. ●And
other necessary instruments for monitoring easy operation and critical parameters. ●A
cleaning system consisting of Tank,CF,Pump and necessary instruments.
Recovery Rate Ratio of permeate flow to feed flow ● Expressed as % ● Recovery = (permeate flow/feed flow) * 100 ●
Role of Pretreatment in RO ●
To reduce particulates & improve SDI. – Clarification / Filtration. – Polymer/coagulant addition. – Micro-filtration.
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Minimize Scaling &fouling. – Softening. – Acid & anti scalant addition. – Anti scalant addition.
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Chlorine Removal. – Carbon Filtration. – Bisulfite Addition.
Role of Pretreatment in RO ●
Minimize Silica Scaling. – Antiscalant addition. – Softening & pH control. – Turbocirculator.
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Controlling Organic. – Dissolved Organic. – Colloidal Orgabic.
Role of Pretreatment in RO ● Silt
Density Index : It is the second parameter used to determine colloidal quantity of the RO Feed water. A test is run to determine the rate of the pluggage of a 0.45 micron filter at 30 psig for 15 minutes. This test consists of determining amount of time it takes to collect a 500 ml sample at the start of the 15 minutes test and comparing this time to the amount of time it takes to collect a 500 ml sample at the end of the 15 minutes.
Cross section of Spiral Wound Membrane Permeate Tube
Membrane Backing “O” Ring
Mesh Spacer Permeate Carrier Membrane
Outer Cover
Membrane Assembly
Reverse Osmosis Membranes Types
● Cellulose Acetate ● Thin Film Composite ● Polysulfones
Thin Film Composite Membrane Characteristics ●
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Lower Operating Pressure High Salt Rejection Available for Sea Water Stable to pH 11 Sensitive to Oxidants
Operating Parameters Feed
Pressure Concentration pH Temperature
Permeate
Concentration Flow Pressure
Concentrate
Flow Pressure Concentration
INSTRUMENTATION Instruments used in RO System •PH •Conductivity Meter •Rotameter •Pressure Gauges
* ORP * Level Switches * Pressure Switches * Electrical Control
Fouling There are Six main causes of membrane Fouling. •Scaling by hardness salts. •Scaling by Silica. •Fouling by Metal Oxides. •Plugging by suspended solids. •Biological Fouling.
Scaling The deposition of sparingly soluble salts onto the membrane surface and/or the feed channel material. – Scaling occurs primarily in the downstream elements because of the higher concentrations existing in this portion of the RO system. – Common scalants include calcium sulfate, silica and calcium carbonate.