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Colloidal chemistry / Oils / Process chemicals / Condensed matter physics / Emulsion / Oil spill / Dispersant / Asphaltene / Automated Data Inquiry for Oil Spills / Chemistry / Matter / Soft matter


Spilled-oil rheological properties changes due to weathering and water-in-oil emulsification This background paper summarizes changes in rheological properties (viscosity, density, interfacial surface tension, etc.) that
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Document Date: 2013-10-22 13:08:35

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City

Juneau / Ottawa / Chelsea / Trondheim / Washington / D.C. / Toronto / Anchorage / New York / London / /

Company

Stephens / National Academy Press / Elsevier Applied Science Publishers Ltd. / Lawrence A.S.C / M. / S.L. Ross Environmental Research Ltd. / Lewis Publishers Inc. / Exxon / SINTEF Group / /

Country

Norway / Canada / Jordan / /

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Event

Man-Made Disaster / /

Facility

Stable Water / Institute of Petroleum / Bunker C / /

IndustryTerm

chemical discussion / oil/air interfacial surface tension / energy input / weathered oil / oil spill emulsification / oil/air / Oil/suspended / oil-weathering modeling / emulsion product / oil weathering model / chemical dispersability / oil transportation study / energy onset / oil/water interfacial surface tension / surface oil / oil thickness / oil weathering behavior / oil-properties-driven approach / chemical constituents / oil coverage / food / energy / oil viscosities / continuous oil phase preventing oil-water separation / oil-water discontinuity / emulsified oil / dissolved and dispersed oil / crude oil / petroleum products / asphaltene/resin-free oil / oil weathering fate / Oil-weathering behavior / stable water-in-oil emulsion formation / oil spill behaviour parameters / oil spills / predicted water-in-oil emulsion properties / energy threshold / water-in-oil emulsification equation / oil-phase chemistry / oil spill-weathering / oil-droplet dispersion / chemicals / oil-weathering models / given energy level corresponding / oil-weathering process / oil/water interfacial surface tensions / oil viscosity / readily-available oil properties / water-in-oil formation / oil phase / oil surface / oil-specific changes / spilled oil / minimal energy threshold / water-in-oil emulsification process / collected oil / oil patches / oil spill / crude oil data / water-in-oil emulsification / oil droplets / chemical analyses / oil / microbial degradation products / turbulent energy / oil slicks / Water-in-crude oil emulsions formation / dispersed oil droplets / crude oil asphaltene / water-in-oil formations / photooxidation products / water-in-oil emulsion formation / stable water-in-oil emulsion / oil-water interface / crude oil emulsification / oil photolysis / given water-in-oil state / oil-water interfacial surface tension / particular oil / chemical composition / water-in-oil emulsions / oil spill evaporation / oil droplet dispersion / oil-spill skimmers / oxidation products / chemical / oil spill models / water-in-oil emulsion / oil properties / fuel oil / /

NaturalFeature

Gulf of Alaska / Prudhoe Bay / Cook Inlet / Kasitsna Bay / /

Organization

National Research Council / Environmental Protection Service / Institute of Petroleum / U.S. Department of Commerce / Minerals Management Service / National Oceanic and Atmospheric Administration / Nuclear Regulatory Commission / Ocean Assessment Division / Prince William Sound Regional Citizens' Advisory Council / Environmental Impact Control Directorate / /

Person

B.E. Kirstein / J.R. Clayton / Jr. / William Sound / C. Clary / G.H. Farmer / G.D. McNabb / G.D. McNabb / Jr. / Alberto Light / B.E. Kirstein / Jr. / G.D. McNabb Jr. / R. Redding / Jr. / J.R. Clayton / /

Position

Major / Walker / Prince / representative California crude oil asphaltene / /

ProvinceOrState

Alaska / Michigan / California / Ontario / /

PublishedMedium

Polar Research / /

Technology

bioremediation / evaporation algorithms / flash / /

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