environmental risk assessment of waste disposal facilities

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ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES Arvind K Nema Department of Civil Engineering, Indian Institute of Technology, Delhi [email protected]

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ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES. Arvind K Nema Department of Civil Engineering, I ndian I nstitute of T echnology, Delhi [email protected]. Introduction. Quantity of municipal solid waste (MSW) continues to grow in spite the efforts to reduce and recycle. - PowerPoint PPT Presentation

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Page 1: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Arvind K NemaDepartment of Civil Engineering,

Indian Institute of Technology, [email protected]

Page 2: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Introduction• Quantity of municipal solid waste (MSW) continues to

grow in spite the efforts to reduce and recycle.

• Landfills play a significant role in the disposal of residual MSW in most developing countries.

• An important factor, however, is the lack of basic epidemiological data on the health impact of prevailing waste management practices that would motivate and drive the authorities to adopt safer management techniques.

• Little attention has been given on the health impacts of acute and chronic exposure due to MSW disposal facilities.

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Objective and Scope

• The objective of this study was to assess the ground level pollutant concentrations due to emissions from landfills and to estimate the associated human health risk.

• The scope of the work was to assess the incremental lifetime cancer risk of inhalation exposure to emissions from a landfill.

– Secondary data were used to estimate emission rate of pollutants from landfills.

– A case study of Okhla landfill site of New Delhi, India is presented to

demonstrate the utility of the methodology.

Page 4: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Risk Assessment Concepts• Risk assessment is the quantification of the potential for

adverse effects due to chemicals released into the environment.

• Risk = the probability of adverse consequence x severity of consequence

• Risk is reported as a probability of occurrence, such as the chance of death per million or the lifetime cancer risk.

• Risk assessment also requires an evaluation of the routes of exposure, dose, duration and the sensitivity of the receptor.

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Risk Assessment Concepts…

–Risk principles

–Steps in risk assessment

–Risk calculations

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Exposure Assessment

Quantify Exposure

Identify Exposure Pathways•Chemical Source/Release•Exposure Point•Exposure Route

Characterize Exposure Setting•Physical Environment•Potentially Exposed Populations

ExposureConcentration

IntakeVariables

Exposure

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• Estimation of Chemical Intakes– Chronic Daily Intake (CDI)

• Daily Intake: DI (mg/kg-day) = C (mg/vol) * Intake (vol/day) / body mass (kg)

• CDI = DI averaged over exposure • Lifetime average daily dose

LADD = DI averaged over 70 year lifetime

– Models for various exposure routes• Lots of factors, exposures• Typical or default values in databases

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• Estimation of chemical intakes: example– Air intake - on-site, commercial, adult

– lifetime = 70 yrs– body wt. = 70 kg– inhalation rate = 20 m3/day (2.5 m3/hr x 8 hr/day)– concentration = 0.2 mg/m3

• DI =

• CDI =

• LADD =

– note: absorbed vs. administered dose

exposure duration = 25 yrsfrequency = 250 days/yr

Page 9: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

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Uncertainties

• Land use, ground water flow, characterization

• Parameter uncertainty and sensitivity

• Quantitative techniques for uncertainty and sensitivity– Confidence intervals– Monte-Carlo techniques

• Health affects, toxicity parameters

Page 10: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

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• Dose-Response Curves - Carcinogens

0

0.05

0.1

0.15

0 200 400 600 800 1000

Dose (mg/kg-day)

occurrence of cancer

Humanexposure

extrapolatio

n

95%upper

confidencelimit

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• Dose levels (animal studies)

– NOEL no-observed effect level– NOAEL no-observed-adverse effect level– LOAEL lowest-observed-adverse effect level– MTD maximum tolerated dose

– LD50 dose which kills 50% of population

– LC50 concentration which kills 50% of population; must include time frame

Incr

easi

ng d

ose

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• Reference dose

– is an estimate of the daily dose of a chemical that will avoid toxic effects other than cancer

– The animal dose (NOAEL, LOAEL) is adjusted by uncertainty factors (UF) to allow for differences in sensitivity to chemicals.

• Human data: UF = 10• Animal data:

UF = 100 (NOAEL), 1000 (LOAEL), 1000 (NOAEL, less data)

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• Reference dose (cont.)– RfD = NOAEL/UF

100 mg/kg-day / 100 = 1 mg/kg-day

– Use RfD to establish allowed concentrationsallowed C = RfD x body wt / daily intake

= 1 mg/kg-day x 70 kg / 2 liters/day = 35 mg/l

Page 14: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

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• Dose-Response Curves (non-carcinogens)

Dose (mg/kg-day)

% R

espo

nse

RfD NOAEL LOAEL

Page 15: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 1

• It is now 2011 and you, along with 400,000 residents of your community, find that for the last 35 years they have been drinking water that contains the chemical CIXOT. Although no one knew that this chemical was toxic until recently, the water treatment plant monitored for this chemical along with the suite of regulated chemicals. The average concentration over the last 35 years has been 4.6 μg/L. The cancer potency slope factor (also known as the potency factor) is 13.1 (mg/kg-day)-1. At this concentration of CIXOT, what would be the expected number of additional adult cancers in this community, using standard values for daily intake due to ingestion?

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Page 16: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 1…

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Page 17: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 1… CDI

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Page 18: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 1…

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Page 19: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 1

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Page 20: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 2

• Suppose residents residing along a lake release a continuous flow of the carcinogenic herbicide, MTX, into a local lake. At steady state conditions and complex mixing, the concentration of MTX in the lake is 334 μg/L in the lake. The lake does not serve as a drinking water supply but many people swim in the lake. Suppose this carcinogen has an absorption potency (slope) factor of 0.71 (mg/kg-day)-1. Assume that the dermal uptake from water (PC) is 9.0 x 10-6 m/h. Assume that the average person swims in the lake five times per week for seven months each year for fifty-five years. The average lifespan is seventy years. This "average" person spends 1.25 hours in the lake each time he/she swims. The average available skin surface area is 1.89 m2. What is the absorbed dose in mg/kg-day?

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Page 21: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Example 2…

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AD =

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Page 23: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Risk Estimation MethodologyLandfill (historical data on

waste quantity and its characteristics)

Emission factor

Estimation of LFG (LandGEM model)

Emission rate

ISCST3 dispersion model

Meteorological data

Ground level concentration

Individual cancer riskPopulation data

Population cancer risk

Page 24: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Schematic Representation of Waste Disposal Facility

Page 25: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Accidental Fire in Waste Disposal Facilities

• Fires occurring at landfill sites across are an ongoing but complex problem.

• Landfill fires threaten the environment through toxic pollutants emitted into the air, water, and soil.

• These fires also pose a risk to landfill workers and nearby receptors.• The degree of risk depends on the contents buried in the landfill, the

geography of the landfill, and the nature of the fire.

• There can be great difficulty in the detection and extinguishment of landfill fires, which is compounded because these fires often smoulder for weeks under the surface of the landfill before being discovered.

• This study present paper aims to determine how various events are related and how they are linked to specific operational problems using logic diagrams like fault trees.

Page 26: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Issues related to Landfill Fire• Depending on the type of landfill and its contents, the smoke

from a landfill fire may contain dangerous chemical compounds, which can cause respiratory disorders and other medical conditions.

• Even if the smoke is benign, it can still aggravate existing respiratory conditions and reduce visibility around the landfill.

• In addition, contrary to conventional thinking, the use of large amounts of water to suppress a landfill fire can actually make the fire worse by increasing the rate of aerobic decomposition, which increases the heat available inside the landfill.

• Further, runoff from suppression efforts can overwhelm a landfill’s leachate collection system and contaminate ground or surface water sources.

Page 27: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Issues related to Landfill Fire..

• Fire may also compromise the structural integrity of a land-fill, posing a collapse hazard for personnel operating on the fire ground.

• Landfill fires fall into one of two categories, surface and underground fires.

• Depending on the type of landfill and type of fire, landfill fires can pose unique challenges to the landfill/ waste management industry and the fire service.

Page 28: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Characteristics of Landfill fires

• Involve recently buried or un compacted refuse, situated on or close to the landfill surface in the aerobic decomposition layer.

• These fires can be intensified by landfill gas (methane), which may cause the fire to spread throughout the landfill.

• Generally burn at relatively low temperatures and are characterized by the emission of dense smoke and the products of incomplete combustion.

• The smoke includes irritating agents, such as organic acids and other compounds.

• When surface fires burn materials such as tires or plastics, the temperature in the burning zone can be quite high.

• Higher temperature fires can cause the breakdown of volatile compounds, which emit dense black smoke.

Page 29: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Surface Fires

• Fires associated with landfill gas control or venting systems

• Fires caused by human error on the part of the landfill operators or users

• Fires caused by construction or maintenance work

• Spontaneous combustion of materials in the landfill

• Deliberate fires, which are used by the landfill operator to reduce the volume of waste

Page 30: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Under Ground Fires • The most common cause of underground landfill fires is

an increase in bacterial activity which raises temperatures (aerobic decomposition).

• These so-called “hot spots” can come into contact with pockets of methane gas and result in a fire.

• This can cause a build up of the by products of combustion in confined areas such as landfill site buildings or surrounding homes, which adds an additional health hazard.

• Underground fires are often only detected by smoke emanating from some part of the landfill site or by the presence of CO in landfill gas.

Page 31: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Fault Tree Analysis (FTA)

• A fault tree is a logic diagram that displays the inter-relationships between a potential critical event in a system and the reasons for, or causes of, this event.

Page 32: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Fault tree for Surface fires SURFACE FIRES

Exposed combustible materials

Favourable weather conditions

Fire Sources

OR OR

OR

Partially covered waste

Flammables not covered

Windy conditions

High ambient temp

Combustion of Materials

Hot Parts contact with waste

OR OR

Reactions in

waste and

emission of gases

Burning loads

from trucks

Human error or

deliberate fires

Construction

equipment

AND

Page 33: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Fault tree for Underground fires UNDER GROUND FIRES

Oxygen supply in buried waste Heat Source

Air through soil coverOverdrawing of Biogas from extraction wells

OR

Partially covered waste

Unsatisfactory waste compaction

OR

Surface Fires

High Temp of the buried waste

OR

AND

Page 34: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Slopes are not compacted

OR

Problem with steel wheel compactor

OR

Human error

Unsatisfactory no. of passes (<3 -4) over waste

Waste mixture during compaction

Water content to obtain min dry density of waste (475 Kg/m3

Ht of waste layers(>5m) during compaction

Wt. of compactor not match with waste

Compactor teeth are worn out

Unsatisfactory Waste Compaction

OR

Properties of Waste

OR

Operator errors

OR

Page 35: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Results of fault tree analysis

Probabilities of occurrence

• Surface fires = 4.64E-03

• Underground fires = 5.91E-03

• According to probability scale table, the fires are occasional.

1 in 10 Frequent

1 in 100 Probable

1 in 1000 Occasional

1 in 10000 Remote

Probability Scale

Page 36: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Estimated Pollutant Emission Rate

Compound Emission Rate (g/s-m2)

1,1-Dichloroethene 1.05E-08

Benzene 8.06E-08

Chloroform 1.93E-09

Tetrachloroethylene 3.34E-07

Trichloroethylene 2.00E-07

Vinyl chloride 2.48E-07

Page 37: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Risk Estimation

• Incremental lifetime cancer risk = CDI x Potency factor

• CDI (mg/kg-day) = Average daily dose (mg/day) / Body weight (kg)

Page 38: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Toxicity Data for Selected Potential Carcinogens (USEPA, IRIS (1989))

Chemical Potency factor inhalation route (mg/kg-day)-1

Arsenic 50

Benzene 0.029

Benzol(a)pyrene 6.110

Cadmium 6.100

Chloroform 0.081

Chromium VI 41.000

1,1-Dichloroethylene 1.160

Methylene chloride 0.014

Nickel and compounds 1.190

Tetrachloroethylene 0.003

Trichloroethylene (TCE) 0.013

Vinyl chloride 0.295

Page 39: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Predicted Carcinogens Ground Level Concentrations

Compound

Average concentration (µg/m3)

within 100 m

At 500 m At 1 km At 2 km

1,1-Dichloroethene 0.194 0.159 0.006 0.003

Benzene 1.493 1.218 0.0479 0.024

Chloroform 0.036 0.029 0.001 0.0006

Tetrachloroethylene 6.187 5.047 0.198 0.101

Trichloroethylene 3.705 3.022 0.119 0.061

Vinyl chloride 3.57 2.912 0.114 0.058

Page 40: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Isopleths of average vinyl chloride concentration (ng/m3)

20

20

40

6060

40

40

4040

40

60

40

40

20

60

60

60

60

80

80

0

100

2020

20

20

202020

80

40

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60

60

40

2020

20

0

X Data

-2000 -1500 -1000 -500 0 500 1000 1500 2000

Y D

ata

-2000

-1500

-1000

-500

0

500

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1500

2000

Page 41: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Estimated Lifetime Cancer Risk

CompoundIncremental Lifetime Cancer Risk

within 100m At 500m At 1km At 2km

1,1-Dichloroethene 2.6E-05 2.17E-05 8.17E-07 4.086E-07

Benzene 5.1E-06 4.15E-06 1.63E-07 8.172E-08

Chloroform 3.4E-07 2.76E-07 9.51E-09 5.706E-09

Tetrachloroethylene 2.4E-06 1.96E-06 7.67E-08 3.913E-08

Trichloroethylene 5.7E-06 4.61E-06 1.82E-07 9.311E-08

Vinyl chloride 1.246E-04 1.01E-04 3.81E-06 1.73E-06

Total Risk 0.00016 0.000134 5.2E-06 2.637E-06

Page 42: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Isopleths of cancer risks (*10-3) due to vinyl chloride

Contour Graph 2

5

5

10

10

1010

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1010

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0

X Data

-2000 -1500 -1000 -500 0 500 1000 1500 2000

Y D

ata

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-1500

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Risk

Page 43: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

Survey of Landfill Site

Sl. No. AgeService (in

years)Exposure Residence

Number of cancer

symptoms

Any disorder

1 50 8 10 hrs/per day >1km 0 yes

2 38 10 7 hrs/per day >1km 2 yes

3 31 10 10 hrs/per day >1km 2 yes

4 35 12 8 hrs/per day >1km 5 yes

5 40 14 8 hrs/per day >1km 0 yes

6 60 25 7 hrs/per day >1km 4 yes

7 55 25 9 hrs/per day >1km 2 yes

8 58 30 10 hrs/per day >1km 0 yes

Page 44: ENVIRONMENTAL RISK ASSESSMENT OF WASTE DISPOSAL FACILITIES

A Construction Site

Sl. No.

AgeService (in

years)Exposure Residence

Number of cancer

symptomsAny disorder

1 30 8 8 hours/per day <1km 0 yes

2 28 10 8 hours/per day >1km 0 no

3 41 11 8 hours/per day <1km 0 no

4 45 25 8 hours/per day >1km 2 yes

5 32 13 8 hours/per day <1km 0 no

6 25 5 8 hours/per day <1km 0 no

7 25 2 8 hours/per day <1km 0 no

8 48 20 8 hours/per day <1km 3 yes