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Water Quality
• Water is an effective “universal” solvent for polar substances.
• This property produces some very complex water chemistry conditions that require purification steps to produce water for laboratory use.
• Quality results are dependent upon reliable
instrumentation and known water quality
Water Contaminants
Water contaminants include particulates, organics, inorganics, microorganisms and pyrogens
Presence of contaminants
Particles
Gases
Microorganisms Purification technologies
Ions
Organics
Water Purification Systems
• An effective laboratory water purification system must efficiently remove contamination that would interfere with lab tests or procedures.
• A water purification system is composed of a series of purification stages
• Analysis of source water is used to determine the type and capacity of individual purification steps needed within the water system.
Reagent Grades of water
• Type IPurest – Required for sensitive tests• Type II Acceptable for most usesType I and II are now called CLRW (Clinical Laboratory
reagent Water• Type III Autoclave and wash water will meet the requirements
of previously classified Type III
Purification Technologies
• Filtration – Depth and Screen Filters• Activated Carbon – Removal of organics and chlorine.• Mineral scale control – Softening and Sequestering• Distillation.• Reverse Osmosis• Electrodeionization• Ultraviolet light
Depth filters
• Depth filters effectively remove large particles found in drinking water.
• A depth filter may consist of a canister of fine sand or a polymer fiber or string-wound cartridge.
• Particles are retained by entrapment as they move through the path of the filter matrix.
• Depth filters protect expensive, fragile membranes downstream in the water system from damage.
• Granules or beads of carbon activated to create a highly porous structure with very high surface area.
• Used to remove total and free chlorine and organic substances from water.
• Pore sizes typically <100 to 2000 Å
• Removal of organics by adsorption
• Removal of chlorine by reduction
Activated Carbon
Scale Control – Ion-exchange Softening
• Calcium and carbonate ions are common in tap water supplies.• Scale forms when concentration exceeds solubility limits and CaCO3
precipitates as a solid.• (Ca++ + CO3 = CaCO3 ).• The resins used in water softening remove scale-forming cations, such as
calcium and magnesium, in exchange for non-scale-forming sodium ions
Reverse Osmosis• Pressure applied in the reverse direction exceeding the osmotic pressure will force pure water through the membrane.
• A reject line is added to rinse contaminants to drain.
RO is an effective method to remove 90% to 99% of particles, ions, organics, and microorganisms from potable source water in a single step
Electrodeionization
Cations driven toward negative electrode by DC current
Anions driven toward positive electrode by DC current
Millipore MILLI-Q Ultra pure water• Tap water is first purified to pure (Type 3) water by reverse osmosis
(RO).
• The pure water produced by the Reverse Osmosis is stored in a tank designed to minimize risks of contamination during water storage.
• From that reservoir, water can be sourced though a front valve or sent by a delivery pump to feed instruments such as a glassware washing machine, or further processed by the Milli-Q Direct to produce ultrapure (type1) water.
• Distillation removes most of the common minerals such as Iron , Calcium and Magnesium but doesn’t remove volatiles such as CO2,Chlorine and Ammonia.
• Distillation typically produces water of Type II or III quality
Distillers - Operation principleDistiller composed of heating device and water condensing system connected to main water supply and able to produce at least 4 litres of distilled water per hour.. If the quality of the feed water is poor, a pre-filter unit should be fitted.
Double Distillation Principal
• Benefits• Removes wide class of
contaminants• Bacteria / pyrogen-free• Low capital cost
Limitations High maintenance High operating cost Low product flow High waste water flow Water storage
Installation requirements
• A well ventilated environment in which the equipment can be installed
• A potable water connection.
• Pre – treatment system according to quality of water feeding the system.
• An electrical connection equipped with control and safety devices.
Pretreatment system for Water Stills
• Pre-Filter for pre-cleaning the tap water.
• Dechlorite Filter
• Phosphate Cartridge
Maintenance
• Scale will accumulate in the boiler and in the heating element and must be removed on a regular basis to obtain optimal performance of the distiller.
• The interval between cleaning operations depends upon the quality of the water supply.
• Descaling is performed with concentrated hydrochloric acid. Record in the logbook .
• The chemical reaction should be allowed to continue until all the scale deposits have been removed
• Water contaminants were measured in parts per million (PPM), Now It is common for analytical and experimental scientists to be concerned with elements and compounds in the parts per billion (ppb) and parts per trillion (ppt) range
• ppm : Parts per Million = mg/Liter• ppb : Parts per Billion = microgram/Liter• ppt : Parts per Trillion = nanogram/Liter.
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