Abstract
The dataset contains the concentrations of low molecular weight organic species observed to partition into the water under varying temperature and pressure conditions, experimentally simulated on the customized oil-water partitioning device.
Purpose
To understand the partitioning trends of organic species from oil to water along the water column during an oil spill.
Keywords
High pressure, High pressure experiments
UDI
R4.x267.179:0004
Date
May 2017
Point of Contact
Name
Aprami Jaggi
Organization
University of Calgary / Geoscience Department
Name
Steve R. Larter
Organization
University of Calgary / Petroleum Reservoir Group - Tesla Petroleomics Center
Funding Source
RFP-4
DOI
10.7266/N7HX19QW
Rights Information
This work is licensed under a
Creative Commons Public Domain Dedication 1.0 License.
Scholar Commons Citation
Jaggi, Aprami. 2017. Experimental simulation of partitioning behavior of low molecular weight organic species between oil and water throughout the water column. Distributed by: Gulf of Mexico Research Initiative Information and Data Cooperative (GRIIDC), Harte Research Institute, Texas A&M University–Corpus Christi. doi:10.7266/N7HX19QW
Comments
Extent
Dataset contains laboratory measurements of partitioning behavior of low molecular weight organic species, no field sampling involved.
Supplemental Information
The following is a list of data parameters organize by the individual tabs in the spreadsheet. Methane Saturation Data (Methane Saturation Measurements at different pressure conditions): Charging Pressure (MPa), Amount of Methane per 1mL of Oil (mL), Methane Saturation (mol/mL); Partitioning Ratio in Live Oil (BTEX Partitioning Ratios with experiments done with Live Oil): System Conditions - Methane Charging Pressure (MPa), Operating Pressure (MPa), Temperature (°C); Partition Ratios (Benzene, Toluene, Ethylbenzene, m- and p -Xylene, o- Xylene) - Mean Partition Ratios (N=3), Standard Deviation from mean (N=3); Concentrations in Live Oil: System Conditions - Methane Charging Pressure (MPa), Operating Pressure (MPa), Temperature (°C); Partition Ratios (Benzene, Toluene, Ethylbenzene, m- and p -Xylene, o- Xylene) - Average Concentration in water (ppm), Standard Deviation from mean (N=3), Average Concentration in oil (ppm), Standard Deviation from mean (N=3); Partitioning Ratio in Dead Oil (BTEX Partitioning Ratios with experiments done with Dead Oil): System Conditions - Methane Charging Pressure (MPa), Operating Pressure (MPa), Temperature (°C); Partition Ratios (Benzene, Toluene, Ethylbenzene, m- and p -Xylene, o- Xylene) - Mean Partition Ratios (N=3), Standard Deviation from mean (N=3); Concentrations in Dead Oil: System Conditions - Methane Charging Pressure (MPa), Temperature (°C); Partition Ratios (Benzene, Toluene, Ethylbenzene, m- and p -Xylene, o- Xylene) - Average Concentration in water (ppm), Standard Deviation from mean (N=3), Average Concentration in oil (ppm), Standard Deviation from mean (N=3);|||||