Suspended particle destabilization in retained urban stormwater as a function of coagulant dosage and redox conditions

Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation ph...

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Published inWater research (Oxford) Vol. 42; no. 4; pp. 909 - 922
Main Authors Sansalone, John J., Kim, Jong-Yeop
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.02.2008
Elsevier Science
Subjects
alum
Alum Compounds - chemistry
Applied sciences
Best management practices
Chlorides
Cities
coagulants
coagulation
electrical conductivity
Exact sciences and technology
ferric chlorides
Ferric Compounds - chemistry
Flocculation
gravity
hydrochemistry
isoelectric point
Other industrial wastes. Sewage sludge
Oxidation-Reduction
Particle Size
particle size distribution
Pollution
Rain
redox potential
Retention
Storage
Stormwater
stormwater management
suspended particles
total suspended solids
TSS
turbidity
urban areas
Waste Disposal, Fluid
Wastes
Water Movements
Water Pollutants - chemistry
water treatment
Water treatment and pollution
Zeta potential
Particle size
Storage
TSS
Zeta potential
Best management practices
Stormwater
Retention
Iron III Chlorides
Urban area
Waste water
Batchwise
Flocculation reagent
Watershed
Turbidity
Electrokinetic potential
Aluminium sulfate
Aerobe
Runoff water
Sediments
Suspended particle
Particle size distribution
Isoelectric point
Flocculation
Trend analysis
Physicochemical purification
Storm water
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Abstract Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential ( ξ) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined ξ of clay-size particles (<2 μm) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a ξ in the range of −15 to about −10 mV. Alum addition produced a charge reversal at dosing above 60 mg/L (18×10 −5 M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While ξ illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for ξ approaching the isoelectric point. The decrease in negative ξ towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.
AbstractList Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential (xi) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined xi of clay-size particles (<2 microm) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a xi in the range of -15 to about -10 mV. Alum addition produced a charge reversal at dosing above 60 mg/L (18 x 10(-5)M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While xi illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for xi approaching the isoelectric point. The decrease in negative xi towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential (xi) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined xi of clay-size particles (<2 microm) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a xi in the range of -15 to about -10 mV. Alum addition produced a charge reversal at dosing above 60 mg/L (18 x 10(-5)M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While xi illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for xi approaching the isoelectric point. The decrease in negative xi towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.
Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential (xi) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined xi of clay-size particles (<2 microm) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a xi in the range of -15 to about -10 mV. Alum addition produced a charge reversal at dosing above 60 mg/L (18 x 10(-5)M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While xi illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for xi approaching the isoelectric point. The decrease in negative xi towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.
Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential ( Chi ) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined Chi of clay-size particles (<2 mu m) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a Chi in the range of -15 to about -10mV. Alum addition produced a charge reversal at dosing above 60mg/L (18x10 super(-) super(5)M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While Chi illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for Chi approaching the isoelectric point. The decrease in negative Chi towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.
Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are mainly influenced by gravitational forces, while the suspended particles, in particular the clay-size particles, are subject to coagulation phenomena. Such phenomena occur in untreated runoff as well as runoff treated with a coagulant, albeit to differing rates and extents. Runoff PSDs and water chemistry indices including zeta potential ( ξ) are potentially modified during inter-event stormwater retention in best management practices (BMPs). This study examined ξ of clay-size particles (<2 μm) in retained runoff, captured from an instrumented watershed, subject to batch coagulation and variable redox conditions. Separate parallel tests were also conducted with wastewater. Significant turbidity, particle mass (measured as total suspended solids (TSS)) and volume concentration (as total volume concentration (TVC)) reduction generated by alum and ferric chloride consistently occurred at a ξ in the range of −15 to about −10 mV. Alum addition produced a charge reversal at dosing above 60 mg/L (18×10 −5 M) while ferric chloride did not reverse charge. With respect to turbidity and TSS reductions, alum outperformed ferric chloride, without the need for pH control. While ξ illustrated no clear trend during aerobic retention, anoxic retention resulted in a trend for ξ approaching the isoelectric point. The decrease in negative ξ towards the isoelectric point appears to be a result of the coupled pH depression under reductive conditions and an increase in conductivity. Results have significant implications for BMPs that retain runoff between events.
Suspended particle destabilization in retained urban stormwater as a function of a coagulant dosage and redox conditions was examined. Turbidity was measured using a turbidimeter. Suspended particles were measured as total suspended solid (TSS) following Standard Method. At dosage that resulted in the lowest TSS turbidity levels, ferric chloride caused higher consumption of the initial alkalinity compared with alum addition, which resulted in 47-49% consumption of alkalinity. Particle size distribution (PSD) results indicated that quiescent settling did not provide significant concentration reduction of particles less than 20 mu m. Zeta potential of suspended clay-sized particles retained in urban runoff became less negative as the retained runoff transitioned from oxidizing to reducing conditions.
Author Sansalone, John J.
Kim, Jong-Yeop
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Issue 4
Keywords Particle size
Storage
TSS
Zeta potential
Best management practices
Stormwater
Retention
Iron III Chlorides
Urban area
Waste water
Batchwise
Flocculation reagent
Watershed
Turbidity
Electrokinetic potential
Aluminium sulfate
Aerobe
Runoff water
Sediments
Suspended particle
Particle size distribution
Isoelectric point
Flocculation
Trend analysis
Physicochemical purification
Storm water
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Snippet Source area runoff entrains a hetero-disperse particle size distribution (PSD). When retained for clarification, larger sediment and settleable particles are...
Suspended particle destabilization in retained urban stormwater as a function of a coagulant dosage and redox conditions was examined. Turbidity was measured...
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SubjectTerms alum
Alum Compounds - chemistry
Applied sciences
Best management practices
Chlorides
Cities
coagulants
coagulation
electrical conductivity
Exact sciences and technology
ferric chlorides
Ferric Compounds - chemistry
Flocculation
gravity
hydrochemistry
isoelectric point
Other industrial wastes. Sewage sludge
Oxidation-Reduction
Particle Size
particle size distribution
Pollution
Rain
redox potential
Retention
Storage
Stormwater
stormwater management
suspended particles
total suspended solids
TSS
turbidity
urban areas
Waste Disposal, Fluid
Wastes
Water Movements
Water Pollutants - chemistry
water treatment
Water treatment and pollution
Zeta potential
Title Suspended particle destabilization in retained urban stormwater as a function of coagulant dosage and redox conditions
URI https://dx.doi.org/10.1016/j.watres.2007.08.037
https://www.ncbi.nlm.nih.gov/pubmed/17889246
https://www.proquest.com/docview/14849981
https://www.proquest.com/docview/20689052
https://www.proquest.com/docview/46148856
https://www.proquest.com/docview/70303644
Volume 42
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