Micropollutants, mixtures and transformation products in recycled water
MIXTURES INVOLVING WATER
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1 MIXTURES INVOLVING WATER •THREE TYPES •SUSPENSIONS •COLLOIDS •SOLUTIONS
description
MIXTURES INVOLVING WATER. THREE TYPES SUSPENSIONS COLLOIDS SOLUTIONS. THE DIFFERENCE AMONG THESE IS THE SIZE OF THE PARTICLES OF THE SOLUTE. SUSPENSION. MIXTURE CONTAINING LARGE PARTICLES IN A SOLVENT PARTICLES WILL SETTLE OUT. - PowerPoint PPT Presentation
Transcript of MIXTURES INVOLVING WATER
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MIXTURES INVOLVING WATER
• THREE TYPES
• SUSPENSIONS
• COLLOIDS
• SOLUTIONS
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• THE DIFFERENCE AMONG THESE IS THE SIZE OF THE PARTICLES OF THE SOLUTE
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SUSPENSION
• MIXTURE CONTAINING LARGE PARTICLES IN A SOLVENT
• PARTICLES WILL SETTLE OUT
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• PARTICLES REFLECT LIGHT WHEN A BEAM IS DIRECTED THROUGH THE MIXTURE (CALLED THE TYNDALL EFFECT)
• EXAMPLE: MUDDY WATER
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COLLOID
• MIXTURE OF MEDIUM SIZED PARTICLES IN A SOLVENT
• PARTICLES WILL NOT SETTLE OUT
• SHOWS THE TYNDALL EFFECT
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SOLUTIONS
• MIXTURE OF SMALL PARTICLES (ATOMS, IONS, MOLECULES) IN A SOLVENT
• PARTICLES WILL NOT SETTLE OUT
• NO TYNDALL EFFECT
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SOLUTION TERMS
• SOLUBLE – DOES DISSOLVE
• INSOLUBLE – DOES NOT DISSOLVE
• SLIGHTLY SOLUBLE – VERY LITTLE DISSOLVES
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• AQUEOUS – WATER IS THE SOLVENT
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SOLUTION TERMS CONTINUED
• MISCIBLE – LIQUIDS THAT CAN DISSOLVE EACH OTHER (EX. WATER AND ALCOHOL)
• IMMISCIBLE – LIQUIDS THAT CANNOT DISSOLVE EACH OTHER (EX. OIL AND WATER)
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• COMPLETELY MISCIBLE – LIQUIDS THAT CAN DISSOLVE EACH OTHER IN ANY AMOUNTS
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SATURATED SOLUTION
• A SOLUTION THAT HAS THE MAXIMUM AMOUNT OF SOLUTE DISSOLVED IN IT AT A GIVEN TEMPERATURE
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• IF MORE SOLUTE IS ADDED, IT WILL NOT DISSOLVE (FALLS TO THE BOTTOM)
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UNSATURATED SOLUTION
• A SOLUTION THAT HAS LESS THAN THE MAXIMUM AMOUNT IT CAN DISSOLVE AT A GIVEN TEMPERATURE
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SUPERSATURATED SOLUTION
• A SOLUTION THAT HAS MORE SOLUTE DISSOLVED THAN IT SHOULD AT A GIVEN TEMPERATURE
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SOLUBILITY
• THE AMOUNT OF A SUBSTANCE THAT CAN BE DISSOLVED IN 100 GRAMS OF SOLVENT TO MAKE A SATURATED SOLUTION AT A GIVEN TEMPERATURE
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EFFECTS OF TEMPERATURE ON
SOLUBILITY• SOLUBILITY OF SOLIDS
USUALLY INCREASES AS TEMPERATURE INCREASES
• SOLUBILITY OF GASES DECREASES AS TEMPERATURE INCREASES
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CONCENTRATION
• THE AMOUNT OF SOLUTE DISSOLVED IN A GIVEN AMOUNT OF SOLUTION
• MANY WAYS TO EXPRESS CONCENTRATION
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PERCENT BY MASS
CONC (IN %) =
(100%)_MASS OF SOLUTE
MASS OF SOLUTION
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MASS OF SOLUTE
MASS OF SOLUTE =
(CONC)( MASS OF SOLN)
100%
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EXAMPLE 1
WHAT IS CONCENTRATION WHEN 5 GRAMS OF SALT IS DISSOLVED IN 95 GRAMS OF WATER?
5 g / (5 g + 95 g)= 5/100= 0.05 = 5%
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EXAMPLE 2
WHAT IS CONCENTRATION WHEN 5 GRAMS OF SALT IS DISSOLVED IN 50 GRAMS OF WATER?
5 g / (5 g + 50 g)= 5 / 55= 0.09 = 9%
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EXAMPLE 3
HOW MUCH SALT IS NEEDED TO MAKE 50 GRAMS OF 10% SOLUTION?
= (10%)(50 g) / 100%= 500 g / 1005 g
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EXAMPLE 4
HOW MUCH SALT IS NEEDED TO MAKE 250 GRAMS OF 7% SOLUTION
= (7%)(250 g) / 100%= 1750 g / 10017.5 g
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PARTS CONCENTRATION
• DEFINED AS MASS OF SOLUTE / MASS OF SOLUTION
• 1 g OF SOLUTE / 100 g OF SOLUTION IS 1 PART PER HUNDRED
• EXPRESSED AS 1 pph
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PARTS ABBREVIATIONS
• pph IS PARTS PER HUNDRED
• ppth IS PARTS PER THOUSAND
• ppm IS PARTS PER MILLION
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• ppb IS PARTS PER BILLION
• ppt IS PARTS PER TRILLION
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RELATING % AND PARTS CONCENTRATIONS
1% = 1/100
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EXAMPLE 5
EXPRESS THE CONCENTRATION OF AN 8% SOLUTION IN PPM
8% = 8/100= 80,000/1,000,000= 80,000 PPM
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EXAMPLE 6
EXPRESS 40% IN PPTH
40% = 40/100
= 400/1000
= 400 PPTH
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EXAMPLE 7
EXPRESS 20 PPH IN %
20 PPH = 20/100
= 20%
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EXAMPLE 8
EXPRESS 350 PPM IN %
350 PPM = 350/1,000,000
= 0.035/100
= 0.035 %
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CHEMICALS USED IN HOMES AND ON FARMS
• FERTILIZERS
• PESTICIDES
• MANY ARE USED AS SOLUTIONS OR SUSPENSIONS
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PLANT NUTRIENTS
• DIVIDED INTO MACRONUTRIENTS, SECONDARY NUTRIENTS, AND MICRONUTRIENTS
• MAY BE IN THE SOIL BUT MAY NOT BE IN A FORM THAT PLANTS CAN USE
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MACRONUTRIENTS
• ELEMENTS PLANTS NEED IN LARGE AMOUNTS
• CARBON, HYDROGEN, OXYGEN, NITROGEN, PHOSPHORUS, & POTASSIUM
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• CARBON, HYDROGEN, OXYGEN ARE READILY AVAILABLE FROM AIR AND WATER
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SECONDARY NUTRIENTS
• ELEMENTS NEEDED IN MODERATE AMOUNTS
• CALCIUM, MAGNESIUM, AND SULFUR
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MICRONUTRIENTS
• ELEMENTS NEEDED BY PLANTS IN SMALL AMOUNTS
• BORON, CHLORINE, COBALT, COPPER, IRON, MANGANESE, SODIUM, MOLYBDENUM, & ZINC
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FERTILIZERS
• SUBSTANCES USED TO ADD NUTRIENTS TO SOIL
• MOST INCLUDE NITROGEN, PHOSPHORUS, & POTASSIUM
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• MAY INCLUDE SOME SECONDARY & MICRONUTRIENTS
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FERTILIZERS CONTINUED
• THESE NUTRIENTS ARE ABSORBED BY PLANTS AS IONS
• FERTILIZERS MUST BREAK DOWN INTO USABLE IONS
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USABLE IONS
• NITROGEN IS ABSORBED AS NH4
+1 OR NO3-1
• PHOSPHORUS (ALSO CALLED PHOSPHATE) IS ABSORBED IN AS H2PO4
-1
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• POTASSIUM (ALSO CALLED POTASH) IS ABSORBED AS K+1
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NITROGEN SOURCES
• SOURCES INCLUDE AMMONIACAL NITROGEN, NITRATES, AND UREA
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AMMONIACAL NITROGEN
• MEANS THE AMMONIUM CATION (NH4
+1)
• USUALLY IS NH4NO3 OR (NH4)2SO4
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NITRATE
• THE ANION NO3-1
• USUALLY IS NH4NO3 OR Ca(NO3)2
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UREA
• H2NCONH2
• REACTS WITH WATER TO FORM NH4
+1
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PHOSPHORUS SOURCES
• SOURCES INCLUDE ROCK PHOSPHATE (NATURAL), SUPER PHOSPHATE, OR AMMONIUM PHOSPHATE
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• ROCK PHOSPHATE IS Ca3(PO4)2 COMBINED WITH OTHER CALCIUM COMPOUNDS
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PHOSPHORUS SOURCES CONTINUED
• SUPERPHOSPHATE IS Ca(H2PO4)2 MIXED WITH CaSO4 (ALSO CALLED GYPSUM)
• AMMONIUM PHOSPHATE IS NH4H2PO4
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POTASSIUM SOURCES
• POTASSIUM CHLORIDE (KCl), POTASSIUM SULFATE (K2SO4), POTASSIUM NITRATE (KNO3), & POTASSIUM MAGNESIUM SULFATE (KMgSO4)
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FERTILIZER LABELING
• DESCRIBED BY 3 NUMBERS THAT INDICATE THE PERCENT COMPOSITION OF EACH MACRONUTRIENT
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EXAMPLE
• 5-10-8 MEANS 5% NITROGEN, 10% PHOSPHORUS, AND 8% POTASSIUM
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FERTILIZER ANALYSES
• LABEL IS REQUIRED TO SHOW A GUARANTEED ANALYSIS
• LISTS PHOSPHORUS (OR PHOSPHATE), POTASSIUM (OR POTASH), AND ALL FORMS OF NITROGEN
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• SHOWS PERCENT COMPOSITION OF EACH NUTRIENT
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PROBLEMS WITH FERTILIZERS
• NUTRIENTS IN RUNOFF CAUSE EXCESSIVE PLANT GROWTH THAT DECREASES OXYGEN FOR AQUATIC LIFE
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• CONTAIN TRACE AMOUNTS OF UNDESIRABLE HEAVY METALS SUCH AS ARSENIC, CADMIUM, MERCURY, NICKEL, AND LEAD
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PROBLEMS CONTINUED
• CAN RUN OFF IN RAIN TO CONTAMINATE STREAMS AND PONDS
• HEAVY METALS CONTAMINATE AND MAY KILL AQUATIC LIFE
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PROBLEMS CONTINUED
• OFTEN LIFEFORMS DO NOT HAVE A WAY TO RID THESE FROM THEIR BODIES – SO THEY STAY THERE
• THIS IS CALLED BIOACCUMULATION
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• SOME HEAVY METALS MOVE UP THE FOOD CHAIN AS AQUATIC LIFE ARE EATEN
• THIS IS CALLED BIOMAGNIFICATION
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PESTICIDES
• ANY CHEMICAL USED TO KILL OR CONTROL UNWANTED FUNGI, ANIMALS, OR PLANTS
• UNWANTED PLANTS ARE CALLED WEEDS
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PESTICIDE TYPES
• INSECTICIDES
• FUNGICIDES
• RODENTICIDES
• HERBICIDES
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PESTICIDE EFFECTS
• MANY PESTICIDES ARE NOT SPECIFIC AND CAN KILL NON-TARGETED ORGANISMS
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• MANY PESTICIDES CAN CAUSE HUMAN HEALTH EFFECTS WHEN HANDLING – SO SPECIAL SAFETY TRAINING AND LICENSING IS REQUIRED
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INSECTICIDES
• HALF-LIFE IS THE TIME FOR HALF OF THE CHEMICAL TO HAVE DECOMPOSED INTO SOMETHING ELSE
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• THOSE WITH LONG HALF-LIVES ARE CALLED PERSISTENT
• RESIDUES AFTER DECOMPOSITION MAY BE HARMFUL
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ORGANOCHLORIDES
• CHLORINATED HYDROCARBONS ARE COMPLEX ARRANGEMENTS OF CARBON, HYDROGEN, AND CHLORINE
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• EXAMPLE: DDT (WAS 1ST SYNTHETIC ORGANIC INSECTICIDE)
• DICHLORODIPHENYLTRICHLOROETHANE
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ORGANOCHLORIDES CONTINUED
• OTHERS INCLUDE CHLORDANE, AND DIELDRIN
• ARE NEUROTOXINS• HAVE VERY LONG HALF-
LIVES• THEY BIOACCUMULATE
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• MOST ARE NOT USED ANY MORE BECAUSE OF NEGATIVE EFFECTS
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ORGANOPHOSPHATES
• NEUROTOXINS• HAVE SHORT HALF-LIVES
(REQUIRE FREQUENT APPLICATIONS)
• VERY DANGEROUS TO FARM WORKERS
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• DO NOT BIOACCUMULATE
• EXAMPLES: MALATHION, ORTHENE, DIAZINON
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CARBAMATES
• NEUROTOXINS
• HAVE SHORT HALF-LIVES
• DO NOT BIOACCUMULATE
• EXAMPLE CARBAMATES: SEVIN AND ALDICARB
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HERBICIDES
• USED TO CONTROL UNWANTED PLANTS
• USED ON POWER-LINE AND RAILROAD RIGHTS-OF-WAY, HIGHWAYS, LAWNS, AND CROPLAND
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• USED MOSTLY TO SAVE TIME AND COST OF WEEDING
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HERBICIDES CONTINUED
• TWO MAJOR TYPES• ONE CAUSES PLANTS TO
OUTGROW THEIR FOOD PRODUCING CAPABILITY (GROW TOO FAST AND DIE)
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• EXAMPLE: 2,4 D (IN MOST LAWN WEED KILLERS)
• 2,4 DICHLOROPHENOXYACETIC ACID
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HERBICIDES CONTINUED
• OTHER TYPE ATTACKS CELLS OR PROCESSES IN PLANTS TO KILL THEM
• EXAMPLE: ROUNDUP
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THE PERFECT PESTICIDE
• INEXPENSIVE• AFFECT ONLY TARGET
ORGANISM• SHORT HALF LIFE• BREAK DOWN INTO
HARMLESS SUBSTANCES• DOES NOT EXIST!
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PROBLEMS WITH PESTICIDES
• NOT SPECIFIC – CAN KILL BENEFICIAL ORGANISMS
• INSECTS OFTEN DEVELOP A RESISTANCE TO PESTICIDES
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• BIOACCUMULATION (ESPECIALLY FATTY AREAS)
• BIOMAGNIFICATION
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PROBLEMS CONTINUED
• DDT EXAMPLE – ALMOST WIPED OUT EAGLES DUE TO BIOMAGNIFICATION
• SHORT-TERM AND LONG-TERM HUMAN HEALTH EFFECTS
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PROBLEMS CONTINUED
• THEY ARE SAFE IF PROPERLY APPLIED, BUT DEATHS HAVE OCCURRED WHEN IMPROPERLY APPLIED
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• MOST PEOPLE HAVE EXPOSURE TO SMALL QUANTITIES OR RESIDUES IN FOOD OR IN THE ENVIRONMENT
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AIR COMPOSITION
• 78% NITROGEN• 21% OXYGEN• TRACE AMOUNTS OF
CARBON DIOXIDE, WATER VAPOR, ARGON, AND FEW OTHERS
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POLLUTION
• SOMETHING PRODUCED BY HUMANS THAT INTERFERES WITH OUR WELL BEING
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• WHILE VOLCANIC ERUPTIONS PRODUCE SIMILAR PROBLEMS, THEY ARE NOT MAN MADE POLLUTION
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AIR POLLUTION
• GASES OR SMALL PARTICLES RELEASED INTO THE ATMOSPHERE
• THESE ARE CALLED PRIMARY POLLUTANTS
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• SECONDARY POLLUTANTS ARE THINGS FORMED BY THE INTERACTION OF PRIMARY POLLUTANTS
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PRIMARY POLLUTANTS
• CARBON MONOXIDE
• HYDROCARBONS
• PARTICULATES
• SULFUR DIOXIDE
• NITROGEN OXIDES
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CARBON MONOXIDE SOURCES
• CREATED FROM INCOMPLETE COMBUSTION OF HYDROCARBONS AND TOBACCO SMOKE
• CARS PRODUCE THE MOST
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• SMOKING TOBACCO IS THE NEXT GREATEST SOURCE
• FACTORIES AND POWER PLANTS ALSO PRODUCE SOME
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CO HAZARDS
• BREATHING AIR CONTAINING 0.001% FOR SEVERAL HOURS CAN CAUSE DEATH
• ATTACHES TO HEMOGLOBIN AND PREVENTS OXYGEN TRANSPORT
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• SMALLER DOSES CAUSE HEADACHE, DROWSINESS, & BLURRED VISION
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CO REMOVAL
• REACTS WITH OXYGEN TO FORM CARBON DIOXIDE
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HYDROCARBONS
• RELEASED BY EVAPORATION OF FUEL OR REMNANTS OF INCOMPLETE COMBUSTION
• CARS PRODUCE THE MOST
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• REFINERIES AND OTHER INDUSTRY ALSO RELEASE IT
• NOT A GREAT PROBLEM BY THEMSELVES
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HYDROCARBONS CONTINUED
• THEY WASH OUT AND CAUSE AN OILY FILM ON SURFACES
• A NUISANCE PROBLEM
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• THEY REACT WITH OZONE TO FORM SECONDARY POLLUTANTS
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VOLATILE
• MEANS EASILY EVAPORATES
• VOCs ARE VOLATILE ORGANIC COMPOUNDS
• MANY FUELS ARE VOCs
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PARTICULATES
• SMALL PIECES OF SOLID MATERIALS
• SMOKE FROM FIRES• BITS OF ASBESTOS FROM
BRAKE LININGS AND INSULATION
• DUST
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• ASH FROM INDUSTRIAL PLANTS
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PARTICULATES CONTINUED
• SOME ARE HARMLESS
• OTHERS ARE CARCINOGENIC (ASBESTOS)
• VERY VISIBLE
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• ACT AS NUCLEI FOR THE FORMATION OF DROPLETS OF WATER AND OTHER DISSOLVED POLLUTANTS
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PARTICULATE SIZES
• MICRON – MEANS MICROMETER
• EQUALS 0.000001 m OR 0.0001 cm
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• PARTICLES BETWEEN 10 AND 2.5 MICRONS ARE COARSE AND ARE EASILY FILTERED BY THE BODY
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• PARTICLES < 2.5 MICRONS ARE FINE PARTICLES AND ARE NOT EASILY FILTERED BY THE BODY
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SULFUR DIOXIDE
• PRODUCT OF COMBUSTION OF FOSSIL FUELS (IMPURE HYDROCARBONS)
• SHARP ODOR• IRITATES RESPIRATORY
SYSTEM
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• REACTS WITH WATER AND OXYGEN TO FORM SULFURIC AND SULFUROUS ACIDS
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NITROGEN OXIDES
• NO AND NO2
• FORMED DURING COMBUSTION IN AIR
• CARS PRODUCE THE MOST
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• REACT WITH WATER & OXYGEN TO FORM NITRIC AND NITROUS ACIDS
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SMOG
• MIXTURE OF SMOKE AND FOG
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SECONDARY POLLUTANTS
• PHOTOCHEMICAL SMOG• MADE FROM NITROGEN
OXIDES AND HYDROCARBONS
• REACTION CAUSED BY UV LIGHT
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• PRODUCES OZONE AND PEROXYACETYLNITRATES
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CONTROL OF AIR POLLUTION
• CATALYTIC CONVERTERS ADDED TO REDUCE HYDROCARBONS, NITROGEN OXIDES, AND CARBON MONOXIDE FROM CARS
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• POSITIVE CRANKCASE VENTILATION (PCV) VALVES REDUCE HYDROCARBON LOSS
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CONTROL CONTINUED
• GAS CAPS WITH AIR POLLUTION CONTROL VALVES REDUCE HYDROCARBON LOSS
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• INDUSTRIAL PLANTS FITTED WITH SCRUBBERS TO REDUCE PARTICULATE EMISSIONS
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AIR POLLUTION RELATED PROBLEMS
• BAD QUALITY AIR
• ACID RAIN
• GLOBAL WARMING
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BAD QUALITY AIR
• DIRECT HEALTH PROBLEM FOR PEOPLE
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ACID RAIN
• SULFUR DIOXIDE AND NITROGEN OXIDES REACT TO FORM ACIDS
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• THESE DISSOLVE IN VARIOUS FORMS OF PRECIPITATION INCLUDING RAIN AND SNOW
• AFFECTS PLANTS AND BODIES OF WATER
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GLOBAL WARMING
• CAUSED BY INCREASED AMOUNTS OF CARBON DIOXIDE, CHLOROFLUOROCARBONS, METHANE, AND DINITROGEN OXIDE
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• CO2 ABSORBS ENERGY FROM THE SUN AND RADIATES IT TO WARM THE ATMOSPHERE
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GLOBAL WARMING CONTINUED
• THE OTHER GASES REACT WITH OZONE TO FORM OXYGEN
• OZONE ABSORBS UV RAYS FROM THE SUN
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• LESS OZONE MEANS MORE UV RAYS PENETRATE TO THE LOWER ATMOSPHERE AND THE SURFACE – INCREASING AIR TEMPERATURE
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CHLOROFLUOROCARBONS
• HYDROCARBONS WITH CHLORINE AND/OR FLUORINE SUBSTITUTED FOR HYDROGEN
• EXAMPLE: FREON-12 (CF2Cl2)
