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Response Strategies For Ethanol and Blended Fuels

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Response Strategies For Ethanol and Blended Fuels Presented by Bobby Breed Specialized Response Solutions Response Contractor for Shell and Motiva – PowerPoint PPT presentation

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Title: Response Strategies For Ethanol and Blended Fuels


1
Response Strategies For Ethanol and Blended Fuels
  • Presented by
  • Bobby Breed
  • Specialized Response Solutions
  • Response Contractor for
  • Shell and Motiva

2
Incident Considerations
  • Knowledge of Products involved
  • Knowledge of container carrying product
  • Identify sensitive receptors and critical
    structures around scene
  • Understanding ICS and Unified Command
  • Work to provide value to the outcome and rapid
    resolution of the incident

3
Arrival on Scene
4
Ethanol Properties
  • Fire hazard greatest threat.
  • Largest volume flammable liquid in rail and
    highway transit becoming more prevalent in barges
    and water transit
  • Completely miscible in water

5
Ethanol Properties (continued)
6
Ethanol Blended Fuels
  • Ethanol blends such as E-95, E-85, and various
    blends of Gasohol reduce the total consumption of
    gasoline and therefore it is understandable, that
    in transit this reduction in total volume of
    gasoline reduces the environmental impact
    proportionately to the blends ratio of ethanol.

7
Open Water Response
  • Gasoline film formed on the water surface as a
    result of ethanol/gasoline blend spill can be
    treated as pure gasoline spill.
  • Environmental impacts of dissolved ethanol can be
    reduced by introducing additional volume of clean
    water (if possible) and increasing water mixing
    (aeration).
  • Monitoring and sampling of ethanol plume will be
    a most likely response scenario.

8
Ground Water Spill
  • In ground water, the abiotic mechanisms for the
    attenuation including sorption, volatilization,
    and abiotic degradation will not contribute
    substantially to the decreased mobility or loss
    of ethanol in aquifers.
  • Therefore, the fate and transport of ethanol will
    primarily be controlled by biodegradation and
    dilution.

9
Ground Water Cleanup
  • In case of underground spill of ethanol/gasoline
    blend, cleanup strategies that stimulate
    biodegradation under anaerobic conditions should
    be considered.
  • The most common engineered bioremediation
    approaches used for cleanup are aerobic,
    introducing oxygen to stimulate biodegradation.
    Applying sufficient oxygen to meet the high
    oxygen demand exerted by ethanol will likely be
    technically difficult and prohibitively
    expensive.

10
Open Water Spill
  • Standard gasoline and water are almost completely
    immiscible. Ethanol is infinitely miscible with
    water.
  • Ethanol/gasoline blend released in an aquatic
    system will rapidly partition leaving hydrocarbon
    film on the water surface and ethanol dissolving
    in the water column.
  • In a high-energy environment ethanol may act as a
    weak surfactant and facilitate dispersion of
    hydrocarbons into water column.
  • Ethanol can be toxic to aquatic life at high
    concentrations.

11
Ethanol and Blended Fuels
  • Ethanol is degradable and can be stripped from
    static water columns as well as porous soil
    regions.
  • Rapid implementation of an aeration strategy is
    successful in dealing with elevated chemical
    oxygen demand (COD) and biological oxygen demand
    (BOD) in bodies of water.

12
Scene Size-up Continued
13
Additional Scene Photos
14
What is our Plan?
  • What do you see as the incident priorities?
  • Should the fire or potential fire issue be
    addressed at this point?
  • Can we extinguish some and let some burn?
  • Does the Fire Department have the proper
    equipment and foam to effectively fight this fire?

15
What can be done?
16
From below the bridge
17
Burning ground under bridge
18
Burning wall
19
Cars on top of abutment
20
Producers Support
  • What resources are needed from the Producer?
  • What role does the producer play in the ICS
    system? Liaison? Technical Specialist?
  • Product knowledge that the producer can provide
    can be the difference in the incident.

21
Burning car on top of Bridge
22
Firefighting Considerations
  • Foam? What kind, and how much? Alcohol Resistant
    Foam is required.
  • Surgical application a must
  • Pre-cooling of vessel and post-cooling the key to
    successful extinguishment.
  • Less than 5 gallons of AR/AFFF used to extinguish
    fires in each railcar.

23
Tear in car on top of bridge
24
The Morning After
25
Regulatory discussion
  • What environmental issues do you see with this
    incident?
  • What are the priorities?
  • What impact to the river can be expected?
  • How would this differ in a still body of water
    and how can it be mitigated quickly?

26
Day-time Firefighting Ops
27
Extinguish car on bridge
28
Specialized Equipment
29
Specifications
  • 1500 gallons per minute pumping
  • 550 gallons AR/AFFF
  • 20,000 portable water storage
  • Multiple pumping configurations
  • Hand lines and eductors for surgical application
    of foam

30
Ethanol and Blended Fuels Incidents
  • Questions and Comments
  • Bobby Breed (877) 506-0025
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