The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed

Research paper published in the journal Combustion Science and Technology 2000. An experimental study to define a practical methodology that will serve to assess the burning of crude oils on a water sub-layer by means of a bench scale procedure is presented. A modified ASTM-E1321 (LIFT) is combined...

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Bibliographic Details
Main Authors: Wu, Neil, Kolb, Gilles, Torero, Jose L
Other Authors: NIST
Format: Report
Language:English
Published: Taylor & Francis 2000
Subjects:
crude oil
spill
LIFT
liquid fuel
standard test
Alaska North Slope
north slope
Alaska
Online Access:http://hdl.handle.net/1842/2637
id ftunivedinburgh:oai:era.ed.ac.uk:1842/2637
record_format openpolar
spelling ftunivedinburgh:oai:era.ed.ac.uk:1842/2637 2023-07-30T03:55:36+02:00 The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed Wu, Neil Kolb, Gilles Torero, Jose L NIST 2000 639487 bytes application/pdf http://hdl.handle.net/1842/2637 en eng Taylor & Francis N. Wu, G. Kolb and J. L. Torero, The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed, Combustion Science and Technology 161, pp. 269-308, 2000. http://hdl.handle.net/1842/2637 crude oil spill LIFT liquid fuel standard test Preprint 2000 ftunivedinburgh 2023-07-09T20:30:27Z Research paper published in the journal Combustion Science and Technology 2000. An experimental study to define a practical methodology that will serve to assess the burning of crude oils on a water sub-layer by means of a bench scale procedure is presented. A modified ASTM-E1321 (LIFT) is combined with flash point measurements to extract fuel properties by means of an existing theoretical formulation. The fuel and water layers are treated as a thermally thick material with combined properties to be able to obtain an analytical solution for an ignition delay time and a flame spread velocity. The experimental results are then correlated to the theoretical formulation to obtain the “fire properties” described in the ASTM-E1321 standard. Five different parameters have been identified that describe the capability of a liquid fuel to sustain a flame: the critical heat flux for ignition, an ignition temperature, the heat contribution of the flame, a thermal efficiency, and the thermal inertia. The methodology is used to evaluate the effect of weathering on the flammability of Alaska North Slope (ANS) and Cook Inlet crude oils. The critical heat flux for ignition was found to be a strong function of the weathering level and a weak function of the fuel layer thickness. The ignition temperature depends on both the weathering level and the fuel layer thickness. Thermal efficiency, heat contribution from the flame and thermal inertia remained invariant with the weathering level and fuel layer thickness. Report Alaska North Slope north slope Alaska Edinburgh Research Archive (ERA - University of Edinburgh)
institution Open Polar
collection Edinburgh Research Archive (ERA - University of Edinburgh)
op_collection_id ftunivedinburgh
language English
topic crude oil
spill
LIFT
liquid fuel
standard test
spellingShingle crude oil
spill
LIFT
liquid fuel
standard test
Wu, Neil
Kolb, Gilles
Torero, Jose L
The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
topic_facet crude oil
spill
LIFT
liquid fuel
standard test
description Research paper published in the journal Combustion Science and Technology 2000. An experimental study to define a practical methodology that will serve to assess the burning of crude oils on a water sub-layer by means of a bench scale procedure is presented. A modified ASTM-E1321 (LIFT) is combined with flash point measurements to extract fuel properties by means of an existing theoretical formulation. The fuel and water layers are treated as a thermally thick material with combined properties to be able to obtain an analytical solution for an ignition delay time and a flame spread velocity. The experimental results are then correlated to the theoretical formulation to obtain the “fire properties” described in the ASTM-E1321 standard. Five different parameters have been identified that describe the capability of a liquid fuel to sustain a flame: the critical heat flux for ignition, an ignition temperature, the heat contribution of the flame, a thermal efficiency, and the thermal inertia. The methodology is used to evaluate the effect of weathering on the flammability of Alaska North Slope (ANS) and Cook Inlet crude oils. The critical heat flux for ignition was found to be a strong function of the weathering level and a weak function of the fuel layer thickness. The ignition temperature depends on both the weathering level and the fuel layer thickness. Thermal efficiency, heat contribution from the flame and thermal inertia remained invariant with the weathering level and fuel layer thickness.
author2 NIST
format Report
author Wu, Neil
Kolb, Gilles
Torero, Jose L
author_facet Wu, Neil
Kolb, Gilles
Torero, Jose L
author_sort Wu, Neil
title The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
title_short The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
title_full The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
title_fullStr The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
title_full_unstemmed The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed
title_sort effect of weathering on the flammability of a slick of crude oil on a water bed
publisher Taylor & Francis
publishDate 2000
url http://hdl.handle.net/1842/2637
genre Alaska North Slope
north slope
Alaska
genre_facet Alaska North Slope
north slope
Alaska
op_relation N. Wu, G. Kolb and J. L. Torero, The Effect of Weathering on the Flammability of a Slick of Crude Oil on a Water Bed, Combustion Science and Technology 161, pp. 269-308, 2000.
http://hdl.handle.net/1842/2637
_version_ 1772819893611134976

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