Development of a Composition Database for Selected Multicomponent Oils

Author:

Wang Zhendi1,Hollebone B.1,Fingas M.1,Sigouin L.1,Fieldhouse B.1,Landriault M.1,Thouin G.1,Noonan J.1,Weaver J.2

Affiliation:

1. Emergencies Science and Technology Division, ETC, Environment Canada, 3439 River Road, Ottawa, Ontario, K1A 0H3

2. National Exposure Research Laboratory, Ecosystems Research Division, United States Environmental Protection Agency, 960 College Station Road, Athens, Georgia 30605

Abstract

ABSTRACT Multicomponent composition and corresponding physical properties data of crude oils and petroleum products are needed as input to environmental fate simulations. Complete sets of such data, however, are not available in the literature due to the complexity and expense of making the measurements. Environment Canada has previously developed a database of various physical and chemical properties of crude oils and petroleum products. In this cooperative project, ten “typical” crude oils and refined products in common use or transport were identified for subsequent characterization. Measured oil physical properties include API gravity, density, sulphur content, water content, flash point, pour point, viscosity, surface and interfacial tension, adhesion, the equation for predicting evaporation, emulsion formation, and simulated boiling point distribution. The chemical composition of the oils are quantified for hydrocarbon groups, volatile organic compounds, n-alkane distribution, distribution of alkylated polyaromatic hydrocarbon (PAH) homologues and other EPA priority PAHs, and biomarker concentrations. This project will provide the most complete and comprehensive database for the selected oils to date. The new composition data will be integrated into the existing Environment Canada oil properties database. The results will be made available to the public both on the world wide web and as a database on disc.

Publisher

International Oil Spill Conference

Subject

Anesthesiology and Pain Medicine

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