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Contaminated land: dealing with hydrocarbon contamination

Contaminated land: dealing with hydrocarbon contamination. Conceptual models for petroleum hydrocarbon sites. Contents of presentation . Key contaminants Compounds of particular interest The challenge of TPH analysis Hydrocarbon-contaminated sites Important source considerations

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Contaminated land: dealing with hydrocarbon contamination

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  1. Contaminated land: dealing with hydrocarbon contamination Conceptual models for petroleum hydrocarbon sites

  2. Contents of presentation • Key contaminants • Compounds of particular interest • The challenge of TPH analysis • Hydrocarbon-contaminated sites • Important source considerations • NAPL sources • Important pathways • Common receptors • Developing and refining the conceptual model • Contaminant interactions Environmental Simulations International

  3. Key components • Will depend on the case but most common hydrocarbon risk drivers are: • BTEX • PAH’s • Weathering may change priorities with time • When relevant, consider MTBE (etc.), lead, other metals • You will need to consider component interactions • Discussed later Environmental Simulations International

  4. Key components – more on BTEX • Main pathways are often migration as dissolved plume and/or as vapour • Relatively soluble in water • Benzene ~1790 mg/l • Relatively volatile • Toxicology • Benzene is a carcinogen • TEX relatively toxic but not carcinogenic Environmental Simulations International

  5. Key components – more on PAH’s • Main pathways are often ingestion, dust inhalation, direct contact • Low to very low solubility in water • e.g, naphthalene ~30 mg/l; benzo[a]pyrene ~0.003 mg/l • Adsorb onto solids • Relatively low volatility (although naphthalene can be significant) • Variable toxicity • Some are carcinogen’s (e.g., benzo[a]pyrene) • Effects can be additive Environmental Simulations International

  6. Key components • Don’t forget NAPL migration Environmental Simulations International

  7. A brief digression – TPH analysis • TPH = Total petroleum hydrocarbons • A quick and easy screening assay • Everyone uses them • Can help identify the type of oil and the extent of weathering • Don’t always believe the lab.’s interpretation • But what do the concentrations tell us? Environmental Simulations International

  8. TPH analysis • Various methods • Gravimetric • Not recommended! • IR • GC • GC/MS Environmental Simulations International

  9. What’s wrong with TPH measurement? • Nothing, provided the data are used correctly • Do you know which standards were used? • Different methods give very different answers • No direct relationship to hazards posed by the components • Work in progress to provide a standard TPH analysis methodology that can link directly into standard risk assessment techniques • Environment Agency/Institute of Petroleum • US methodology Environmental Simulations International

  10. 2. Define key properties of each fraction 4. Integrate fate/toxicity data and determine risk 3. Determine toxicity based on data derived for the fraction or key components within it The US approach 1. Define appropriate hydrocarbon fractions for assessment http://www.aehs.com/ Environmental Simulations International

  11. How does the process work? • GC/FID screen to derive TPH fractions • Screening concentrations per fraction for main exposure routes • More detailed GC/FID or GC/MS analysis of fractions • Procedure for deriving site-specific values Environmental Simulations International

  12. Conceptual models Hardstanding River intercepts plume Deep borehole Environmental Simulations International

  13. Why do we need conceptual models? • A ‘pollutant linkage‘ is the relationship between • a contaminant (source) • a pathway • a receptor • The presence of all three elements is required for land to be defined as ‘contaminated’ • So, we need a conceptual understanding of our site! Environmental Simulations International

  14. A conceptual model … • Allows targeting of subsequent investigation • Use the model iteratively • And is a requirement for SI (BS10175:2001) • Provides the context for quantitative risk assessment • Demonstrates an appreciation of the problem • …beyond the purely factual data gathering • Aids communication • Is a good QA tool Environmental Simulations International

  15. Some considerations for hydrocarbon sources - 1 • What? • What was released? • Source material • Additives (MTBE, lead?) • Co-contaminants? • e.g., degreasing solvents • When? • Weathering? • How? • Distribution and weathering? Environmental Simulations International

  16. Some considerations for hydrocarbon sources - 2 • How much? • Estimate of source mass • NAPL likely? • Residual? • Where? • Weathering? • Spatial variability • Fracture versus matrix flow • And so on … Environmental Simulations International

  17. NAPL sources • Flowing or immobile? • If flowing, where to? • Smearing? • How much? • How reliable are the thickness measurements? • Do it’s properties match theory? Environmental Simulations International

  18. Some possible source behaviours Metals (e.g., lead) Ethanol Antifreeze Oil and petroleum products Chlorinated solvents Environmental Simulations International

  19. NAPL sources Environmental Simulations International

  20. Idealized spreading on water table. (actually, capillary fringe) Soil heterogeneities result in “fingering” Water table moving below initial level results in further descent of free flowing NAPL. NAPL smearing – spreading the source? Raising water table may not displace free product lens which remain in initial position. Environmental Simulations International

  21. Some pathway considerations - 1 • Geological setting • Hydrology/hydraulics • Recharge processes and unsaturated zone flow • Groundwater flow • Essentially horizontal or vertical? • Discharge points • Natural or anthropogenic? • Fast pathways ( early arrival of contaminants) • Slow pathways ( persistence of contaminants) • Barriers to flow Environmental Simulations International

  22. Some pathway considerations - 2 • Groundwater pathways • Advection and Dispersion • Dispersion • Sorption/retardation • Biodegradation • NAPL flow • Gradient of water table • Penetration of preferential flow paths Environmental Simulations International

  23. Some pathway considerations - 3 • Vapour pathways • Advection and Dispersion • Sorption/retardation • Biodegradation • Solid phase contact • Dust transport • Direct contact • Inter-phase partitioning • Plant uptake? Environmental Simulations International

  24. Some possible important receptors • Who/what? • Humans • Controlled waters • Aquifers • Surface waters • Water supply • Plastic pipelines • Utilities structures • Cabling • Sewers • Ecosystems • Buildings Fit for purpose? Environmental Simulations International

  25. Component interactions • Hydrocarbon components will behave very differently from each other • MTBE can behave very differently in groundwater – high mobility, often slow biodegradation • Components can affect the behaviour of others • Biodegradation • Sorption • Solubility • Vapour composition… Environmental Simulations International

  26. Component interactions An example - benzene Environmental Simulations International

  27. Conclusions • We need conceptual models • Hydrocarbons have some specific properties that are important to consider • And many that are common to all contaminants • Consider the effect of the component mixtures when testing the model • Ask the questions Environmental Simulations International

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