Waste Water Treatment Options-May30,2005
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Saudi Arabian Water Environment Association (SAWEA)
Wastewater Treatment Treatment Options & Key Design Issues
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AgendaOily Wastewater Treatment
Primary Treatment – Oily WastewaterPrimary Oil/Water Separators (Roughing Step)Secondary Oil/Water Separators (Polishing Step)
Wastewater EqualizationSecondary Treatment - Biological Treatment OptionsTertiary Treatment
FiltrationActivated Carbon
Wet Air Oxidation (Treatment of Spent Caustic)
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-ProcessTreatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
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Treatment ObjectivesScreening/Grit Removal
Removal of large objects that might plug downstream treatment processes (Gloves, plastic bags, large debris)
Primary Oil/Water SeparatorRemoval of large amount of oil and suspended solids from wastewater. Influent conditions are typically 300 to 10,000 ppm oil and TSS. Effluent requirements are typically 100 - 300 ppm oil and TSS.
Secondary Oil/Water SeparatorTreatment objective is typically 5 to 30 ppm oil, dependent upondischarge requirements, or downstream treatment processes. The amount of influent oil a process can withstand is 100 to 500ppm, depending upon the process selected.Typically would like to see oil < 30 ppm to a biological treatment process. Other discharge requirements may be more stringent.
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Primary Oil/Water Separator OptionsAPI SeparatorCPI Separator
Both technologies provide oil and solids separation from water based on Stokes Law. In other words, they rely on the difference in specific gravity between oil, water and solids, to provide separation of these components in oily wastewater.
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ReactionJet Baffles
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.
.
.
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Sludge Hopper
VentInlet
WaterInlet
WaterOutlet
VentOutletOil Roll Skimmer
ManuallyOperatedScum Pipe
Deflagration Relief Valve Pressure/VacuumVent
API SeparatorPrinciples of Operation
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API SeparatorTypical Applications and
Operating ConditionsTypically used in Petroleum Refineries and some Petrochemical Facilities. Influent Oil: 300 ppm to 10,000 ppm.Influent TSS: 300 ppm to 10,000 ppm.Effluent: 50 to 200 ppm oil and TSS.
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API SeparatorAdvantages
Ability to process wastewater with high TSS concentrations, up to 20,000 PPM.Non-metallic collector component resist corrosion and are easy to install. Concentrated oil removal.Responsive to variations in flow and load.
DisadvantagesLarge area required.Higher costs.
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OutletInlet
Adjustable Outlet Weir
Clean-WaterOutlet Channel
Sludge Pit
Corrugated-PlatePack
Sediment Trap
Adjustable Inlet WeirOil LayerOil Skimmer
CPI SeparatorPrinciples of Operation
OilGlobules
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Corrugated PlatesCorrugated Plates End ViewEnd ViewSolids SettlingSolids SettlingChannelChannel
Oil CoalescingOil CoalescingChannelChannel
CPI SeparatorPrinciples of Operation
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CPI SeparatorTypical Applications and
Operating ConditionsNormally used in petrochemical plants with low TSS wastewater or in treatment of produced water in oil fields after production separators.Influent oil: 200 to 10,000 ppm.Influent TSS: Less than 100 to 200 ppm, dependent upon type of oil present.
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CPI SeparatorAdvantages
Very small space requirements.Low capital costs.Easy to cover for VOC and odor control.
DisadvantagesNot recommended for TSS concentrations above 100 to 200 ppm.Not tolerant to variations in flow and load.
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-ProcessTreatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
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Secondary Oil/Water SeparatorDissolved Air/Gas Flotation Separator (DAF or DGF
Separators)Induced Air/Gas Flotation Separator (IAF or IGF
Separators)Walnut Shell Filter
Relies on a some other mechanism, other than gravity, to assist with removal of oil and suspended solids from wastewater.
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DAF/DGF SeparatorsPrinciple of Operation
Air/Gas+
Air/GasAir/Gas++ Oil__OilOil____
Oil__OilOil____
Oil__OilOil____ Optimum Bubble Size – 50 to 100 Micron
The “Soda Water” EffectPre-dissolves Gas in Wastewater
Uses bubble attachment to oil/solids particles to “float” particles from wastewater
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Chain and Flight Collector
Screw Conveyor orChain and Flight Scraper
Flash MixZone
FlocculationZone
InletFlow
Recycle Flow
Recycle/PressurizationSkid
Effluent
DAF/DGF Separators
Outlet Flow
Principle of Operation
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DAF/DGF SeparatorsTypical Applications and
Operating ConditionsMost common method of oil and TSS removal in refineries and petrochemical plants.Influent oil and TSS concentrations up to 500 ppm.Up to 95% removal of oil and TSS
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DAF/DGF SeparatorsAdvantages
Tolerant of changes in wastewater strength and flow.Integral chemical conditioning provides good removal of oil emulsions.Low sludge production, 0.1 to 0.5% of forward flow.Consider non-metallic collector components for corrosion resistance.
DisadvantagesHigher cost and larger footprint compared to other technologies.
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IAF/IGF SeparatorsPrinciple of Operation
Air/Gas+
Air/GasAir/Gas++ Oil__OilOil____
Oil__OilOil____
Oil__OilOil____
Gas is Dispersed into Small BubblesUses bubble attachment to oil/solids particles to
“float” particles from wastewater
Bubble Size1000 Micron and Larger
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IAF/IGF SeparatorsPrinciple of Operation
The gas is educted into the wastewater using either a mechanical mixer (shown) or a recirculation pump.The gas is then dispersed into small bubbles using the mechanical mixer (shown) or an impingement plate.Creates a frothing effect, whereby oil is removed from the wastewater.
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IAF/IGF SeparatorsTypical Applications and
Operating ConditionsTypically used in oil production with some minor applications in refineries and petrochemical plants.Works best on applications with consistent wastewater characteristics and no oil emulsions.Influent oil concentrations less than 300 ppm.90 to 95% removal of oil.Not designed to remove TSS (TSS less than 100 ppm).
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IAF/IGF SeparatorsAdvantages
Small footprint.Lower costs.
DisadvantagesHigher sludge production, 2 to 10% of the forward flow.Less tolerant of flow and load variations.Poor removal of oil emulsions.Limited TSS removal efficiency.
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Walnut Shell FiltersPrinciple of Operation
Operates very similar to a media filter, except the media is crushed walnut shells.Walnut shells have very high affinity to attract oil.Once the oil adsorption capacity of the walnut shells is reached, based on differential pressure, the walnut shells are hydraulically removed from the filter where the oil is centrifugally removed from the media. The walnut shells are then sluices back into the filter vessel.
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Walnut Shell FiltersTypical Applications and Operating
ConditionsTypically used in facilities with strict oil discharge requirements, that do not have downstream treatment processes, such as biological treatment.Sometimes used with systems that have downstream membrane processes such as MBR.Influent oil concentrations less than 100 ppm.Effluent oil less than 5 ppm.
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Walnut Shell FiltersAdvantages
Can achieve very low effluent oil concentrations, 1 to 5 ppm.
DisadvantagesNot a good TSS removal device.High capital cost.
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-ProcessTreatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
Equalizaton
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Wastewater EqualizationPurpose
Smooth out variations in flow and contaminantsMinimize hydraulic shock loading to WWTP process equipmentMinimize contaminant shock loading to biological treatment
MethodologyTypically located after the oil/water separatorsFlow diversion/control of stormwaterCompletely mixed fixed volume tank
Effective volume (retention time)Magnitude of contaminant variationDuration of contaminant variationFor petroleum facilities, 12 to 24 hours is desired.
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0
200
400
600
800
1000
1200
0 10 20 30 40 50 60 70 80 90
Time, hrs
CO
D, m
g/L
Feed 2 hr HRT 12 hr HRT 24 hr HRT
Wastewater Equalization
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-ProcessTreatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
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Biological TreatmentAeration DevicesMembrane Bio-Reactors (MBR)
This information is applicable to both oily wastewater and municipal wastewater treatment.
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Biological TreatmentTypical Applications and
Operating ConditionsDesigned primarily for removal of biodegradable organic matter, nitrogen and phosphorus compounds, and N2SNormally applied after primary treatment where inert solids and oils are removed from the wastewater.Used to achieve effluent BOD and TSS concentrations of 30 ppm or less.Effluent COD concentrations are dependent upon the application.
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Biological TreatmentPrincipals of Operation
Bacteria
OrganicChemicals
Oxygen
Nutrients
CarbonDioxide
Cell Mass
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Biological TreatmentPrinciples of Operation
Return Activated Sludge
InfluentSecondary Clarifier
Effluent
Waste Sludge
AirDiffusers
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Biological Treatment OptionsFine Bubble Aeration
AdvantagesVery high oxygen transfer efficiency (low energy consumption).Low VOC and odor emmissions.
DisadvantagesDiffusers require periodic cleaning.The aeration device is submerged and must be removed from the tankage for cleaning.Can add heat to wastewater.
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Biological Treatment OptionsCoarse Bubble Aeration
AdvantagesNon-plug design requires very little maintenance, if any.Low O&M costs.
DisadvantagesNot very energy efficient.The aeration device is submerged and must be removed from the tankage for cleaning.Can add heat to the wastewater.Higher potential for VOC and odor emissions.
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Biological Treatment OptionsJet Aeration
AdvantagesNon-plug design requires very little maintenanceLow O&M costs.Energy efficient.Very good process flexibility.
DisadvantagesThe aeration device is submerged and must be removed from the tankage for maintenance.Can add heat to wastewater. Requires an external recirculation pump for jet mixing feature.
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Biological Treatment OptionsSurface Aerators
AdvantagesLocated above the water surface.Can be maintained without draining the treatment basin.Can provide cooling of hot wastewater.Low costs
DisadvantagesVery energy inefficient.Very high potential for odors and VOC emissions.Very large space requirements.
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Biological Treatment OptionsOxidation Ditch
AdvantagesAeration devices are above the water level and can be maintained without draining the tank.Good process flexibility due to multi-channel design.Can provide good cooling of warm wastewater.Very energy efficient.
Disadvantages Large area requirement.High potential for odor and VOC emissions.
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Biological Treatment OptionsPowdered Activated Carbon Treatment
AdvantagesActivated carbon is added to biological treatment systems to remove difficult to degrade organic compounds (COD).Used in conjunction with all previously mentioned biological treatment devices.Very good recovery to upset conditions.
DisadvantagesAdditional cost for activated carbon.Greater sludge generation.
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Biological Treatment OptionsMembrane Bio-Reactor
Principle of OperationsReplaces the conventional gravity clarifier.Provides an impermeable barrier for solids.
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Biological Treatment OptionsMembrane Bio-Reactor
Typical Applications and Operating Conditions
Completely remove unwanted solids greater than 0.1 micron
TurbidityMicroorganismsBiomassCoagulated solidsLarge molecular weight organics
Removal forMeeting discharge regulationsEnhancing biological processesRecycle / reuse opportunitiesBOD < 5 mg/l, TSS < 1 mg/lTurbidity < 0.2 NTU
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Biological Treatment OptionsMembrane Bio-Reactor
AdvantagesEffluent qualitySmaller footprintLower sludge production.Flexibility to be used with many different aeration processes to achieve desired treatment results.
DisadvantagesCapital CostsChemical CleaningIn petroleum applications, hydrocarbons can negatively impact non-metallic materials
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Biological TreatmentEvaluation Parameter
Disc Aeration
Surface Aerator
Fine Bubble Aeration
Coarse Bubble Aeration
Jet Aeration
Sequencing Batch Reactor *
Membrane Bioreactor*
PACT*
Effective Bioassay/Toxicity Control
Effective BOD Removal Efficiency
Effective COD Removal Efficiency
Low O&M Costs
Low Sludge Production
Low Sludge Disposal Costs
Good Operability: Winter
Good Operability: Summer
Good Performance: High Water Temperature
Good Performance: Low Water Temperature
Minimal Operator Attention
Quick Upset Recovery
Easy Expandability
Efficient Nitrification
Easy to Cover for VOC Containment
Low VOC Stripping Potential
Easy Installation
Minimal Space Requirements
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-ProcessTreatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
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Tertiary TreatmentTypical Applications
Provide additional treatment to meet strict wastewater discharge requirements.Provide additional treatment to allow wastewater to be reused.
Typical Treatment MethodsMedia FiltrationActivated CarbonMicrofilter Membranes
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Media FiltersPrinciple of Operation
Gravity or pressure design with granular media bedOne to three layers (coarse to fine) of filtration mediaFlows from top, through media, out the bottomLarge capacity and low pressure dropSuspended solids captured in media bedSuspended solids removed by backwashingAir scour may also be used to increase backwashing effectiveness
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Media FiltersTypical Applications and Operating Conditions
Filtration of:Biological effluent
Inlet parametersSolids < 30 mg/LTurbidity < 30 NTUParticles > 10 micron
Outlet parametersSolids < 5-10 mg/LTurbidity < 1 NTUParticles 2 - 5 micron
98% removalRequires coagulant or flocculent feed
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Media FiltersAdvantages
Can operate at very high rates approaching 10 gpm/ft2.Very good turbidity control.
DisadvantagesNot recommended for oil removal. High oil concentrations can plug and foul media to the point it needs to be replaced
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Carbon AdsorptionPrinciple of Operation
Very high surface area per unit volume
One pound (one liter) has enough surface area to cover more than 80 soccer fields.
Hydrophobic surfacePoor affinity for waterStrong affinity for organic compounds.
Used for adsorption of organic compounds, particularly dissolved organics.
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Carbon AdsorptionTypical Applications and Operating Conditions
Wastewater treatment to remove difficult to degrade organic compounds after biological treatment.Carbon can be added to the biological treatment as PACT (Previously discussed) or can used to polish biological effluent.Typically used in low strength and low flow conditions to avoid high carbon consumption.Carbon can be reactivated through incineration or steam contact.
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Carbon AdsorptionAdvantages
Extremely high removal of non-biodegradable organic compounds.Lower capital costs.
DisadvantagesTo keep operations costs low, a incineration reactivation facility should be close by.High operating costs.Carbon handling facilities required.Requires media filters as pretreatment to remove TSS.
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MicrofiltrationTypical Applications and
Operating ConditionsOperates very similar to an MBR, but since the solids loading is lower, the flux rate is higher. Completely remove unwanted solids greater than 0.1 micron.BOD < 5 mg/l, TSS < 1 mg/lTurbidity < 0.2 NTUHigher capital costs than media filters or carbon filters.Great for expansion of existing biological treatment systems
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PrimaryOil/Water
Separation
Screening/Grit
Removal
SecondaryOil/Water
Separation
BiologicalTreatment
TreatedEffluent
TertiaryTreatment
RawInfluent
OilRecovery
Solids Handling
BiologicalClarification
ToDisposal
To Disposal/Oil Recovery
Solids Handling
To Disposal/Oil Recovery
In-Process
Treatment
Process UnitWastewater
Reuse/Recovery
Typical Oily Water Treatment System
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Wet Air OxidationPrinciple of Operation
Oxidation of soluble or suspended oxidizable components in an aqueous matrixOxygen (air) is the oxidizing speciesOxidation reactions occur at elevated temperatures and pressures
ProcessHeat
Exchanger
OxidizableWaste
Feed Pump
Air Compressor
Reactor OxidizedWastewater
PCV
PC
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Wet Air OxidationTypical Applications and Operating Conditions
Refinery and Ethylene Spent CausticReactive sulfides - odorProblematic for biological treatmentHigh COD load
Refinery Spent CausticInorganic Sulfides as S % 0 to 4Mercaptides % 0 to 4Salts of Cresylic Acids % 0 to 20Salts of Napthenic Acids % 0 to 10NaOH % 1 to 15COD mg/l 50,000 to 400,000pH 13 to 14
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Wet Air Oxidation
Feed EffluentCOD, mg/l 114,000(1) 23,186COD Reduction NA 80%Sulfide - S, mg/l 24,560 <1(2)
Phenol 456 <2(2)
Thiosulfate - S2O, mg/l 2,460 <125(2)
Typical Results
Refinaria de Petroleos de ManguinhosS.A.Rio de Janeiro, Brazil
(1) Raw spent caustic COD at 186,500 mg/l diluted to 114,000 mg/l prior to wet air oxidation
(2) Detection limit
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Saudi Arabian Water Environment Association (SAWEA)
Thank You!