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Implications of Heavy Metals in Sewage Sludge
Where Do We Stand on Regulations?
Regulation?
• Why? - Authorization or mandate • How? - Concepts, goals, assumptions, and
approaches • What?
– Contents– Implement-able package
•
Regulate? Not Regulate?
• Opponent– Potentially hazardous substances are present– Assuming practice will be harmful until proven safe– Ban or strict limitation
• Advocate– Practiced for a long time without “documented” harmful effects– Assuming practice is safe until proven otherwise– Promotion, no need to regulate, or general guidelines
• Framework of mind– Decision of regulate may be different
Cumulative Loading
CumulativeRate
USA Canada France HollandCd (kg ha-1) 39 4 3.75 1.25Cu (kg ha-1) 1,500 150 200 75Ni (kg ha-1) 420 36 62.5 38Pb (kg ha-1) 300 100 125 225Zn (kg ha-1) 2,800 370 550 300Hg (kg ha-1) 17 1 2.3 0.75
Annual Loading
Annual Input
Cd (kg/ha-1)
Pb (kg/ha-1)
Zn (kg/ha-1)
Hg (kg/ha-1)
USA 1.9 15 140 0.85 Germany 0.15 6 15 0.125 Sweden 0.015 0.3 10 0.008 Holland 0.0025 0.45 0.6 0.0015 Finland 0.12 4.8 20 0.1 Denmark 0.015 0.06 - -
Discrepancies, Why?
• Rule making process– Mandates– Concepts– Goals– Assumptions– Approaches
Rule Making Process• Objective
– goals regulation must accomplish
• Assumptions– domain within which proposed rules apply
• Approach– strategy to accomplish objective
• Final rule– Reasonable?
– Implement-able?
• Acceptance? Public, stakeholders
Approaches
• Ecological Balance– Prevent pollutant accumulation in soils
• Capacity utilization– Maximize pollutant attenuation capacity of
soils
Prevent Pollutant Accumulation Assumptions
• Soil - foundation of terrestrial ecosystem and irreplaceable natural resource
• Use without undue restrictions, if soil is free of pollutants
• Experience increasing difficulty to support uses, if pollutants are allowed to accumulate
• Unknown ecological consequences
Prevent Pollutant Accumulation Goal
• No pollutant accumulation in the sewage sludge-receiving soils
Prevent Pollutant Accumulation Regulatory Approach
• Pollutant-free sewage sludge
• Pollutant input = Pollutant output
Prevent Pollutant Accumulation Advantages
• In agreement with ecology - sustainable practice
• Numerical limits - obtain from simple mass balance calculations
• Detailed knowledge on fate and transport of pollutants not needed
• One set of standards fits all situations
• Easy to implement
Prevent Pollutant Accumulation Disadvantages
• Require rigorous pretreatment for wastewater discharge
• Phase out incompatible industrial raw material and household products
• Performance and reliability of wastewater treatment processes
• Little agronomic benefit
Maximize Attenuation CapacityAssumptions
• Soil assimilates, attenuates, and detoxifies pollutants
• Capacity should be utilized - realize benefits of resource conservation
• Land application, environmentally, is equal if not a better option
• Stringent limits discourage resource conservation and recovery
Maximize Attenuation CapacityGoal
• Realize agronomic benefits of applying sludge on land
• Keep pollutants in the soil at a safe level - public health and environment
• Beneficial use without compromising public health and environment
Maximize Attenuation CapacityRegulatory Approach
• Identify safe/unsafe sludge for land application
• Determine maximum tolerable pollutant input
• Set maximum tolerable pollutant levels in soil or products
Maximize Attenuation CapacityAdvantages
• Resource conservation - appreciation of agronomic benefits
• Flexibility of developing safe and site-specific land application operations
• Cost effective - competitive with other options
Maximize Attenuation CapacityDisadvantages I
• Upper limits for each pollutant must be evaluated separately
• Technical information is not always available - uncertainties in setting numerical limits
• Pollutant levels in receiving soil will increase - under long-term use and high rates
Maximize Attenuation CapacityDisadvantages II
• Margin of safety “may be” narrower
• Site may require long-term monitoring
U.S. vs Europe
• U.S. - maximizing pollutant attenuation capacity of soils
• European countries - preventing pollutant accumulation in soils
Will Sludge Ever Be Free of Metals?
• Not likely
• Metals will always be used in industrial processing and consumer goods
• They will find their ways into the wastewater collection systems
• Source control is essential
Heavy Metals in Sewage Sludge Trends
• Metal concentration of sludge continued to decrease - implementation of industrial waste pre-treatment program
• Pollutant input decreases when “agronomic rate” is followed
USEPA Sewage Sludge Survey
Element 1979 1988 Change
Cd (mg/kg) 69 7 - 90%Cr (mg/kg) 429 119 - 72%Cu (mg/kg) 602 741 + 23%Pb (mg/kg) 369 134 - 63%Ni (mg/kg) 135 43 - 68%Zn (mg/kg) 1594 1202 -24%
AMSA Sewage Sludge Survey
Element 1987 1996 Change
Cd (mg/kg) 26 6 - 75%Cr (mg/kg) 430 103 - 76%Cu (mg/kg) 711 506 - 28%Pb (mg/kg) 307 111 - 64%Ni (mg/kg) 167 57 - 66%Zn (mg/kg) 1540 830 - 46%
Estimated Pollutant Inputs(1000 t ha-1)
• Reasonable application: <10 t ha-1y-1 for <100 y, therefore <1000t ha-1
• Use Sewage Sludge from San Jose as an example
• Estimated pollutant inputs are considerably less than pollutant loading rates specified in Part 503 regulation
San Jose Sewage Sludge
Element Conc.
(mg kg-1)
Input@1000 t ha-1
(kg ha-1)
CPLR
(kg ha-1)
As 5.8 5.8 41Cd 9.6 9.6 39Cr 400 400 1,200Pb 150 150 300Hg 1.5 1.5 17
San Jose Sewage Sludge
Element Conc.(mg kg-1)
Input(kg ha-1)
CPLR(kg ha-1)
Mo 4.9 4.9 -
Ni 100 100 420
Se 2.8 2.8 36
Zn 1,100 1,100 2,800
Implementation
• No rule is and will be perfect
• Fulfill its mandate and accomplish its goals
• If not implementable, regulation = no regulation
• Regulations are better than no regulation
• Technological issues
• Costs issues
Possible Approaches
• Match benefits– Waste disposal– Plant nutrients
• Sharing and distribution of cost and risk• Urban-rural alliance
– Special district– Cooperative– Collective planning and implementation
• Long-lasting institutional entities
