Zachary Aman

Abstract

This dataset contains the raw droplet size measurements from high-pressure visual autoclave for Australian crude oil at 110 bar methane and various mixing velocities. Calculations of mixing velocity and Reynolds number, as well as the physical properties of the oil, can be calculated according to the associated manuscript (doi:10.1016/j.ces.2015.01.058). Experimental methods can also be found within the manuscript.

Comments

Extent

This is a laboratory experiment where geographical spatial and temporal extents are inapplicable.

Supplemental Information

[Droplet sizes (microns), Count (unit less): identifier of the order in which measurement points are selected in Image, X (pixels): position of the count identifier on the x-axis, Y (pixels): position of the count identifier on the y-axis, Slice (unit less): image number from total sequence, D (microns): calibrated distance between X,Y positions on each side of oil droplet] for [110 bar 200 RPM, 110 bar 300 RPM, 110 bar 500 RPM, 110 bar 600 RPM, 110 bar 700 RPM, 110 bar 850 RPM, 110 bar 1000 RPM]||High-pressure visual sapphire autoclave. ||Not included explicitly, as distribution type is not determined.|

Purpose

The data was captured in order to better determine the effect of mixing velocity on oil-in-water dispersion droplet size distirbutions.

Keywords

Blowout, Droplet size distribution, Turbulence, Autoclave

UDI

R1.x135.118:0010

Date

October 2015

Point of Contact

Name

Zachary M. Aman

Organization

The University of Western Australia / School of Mechanical and Chemical Engineering

Funding Source

RFP-1

DOI

10.7266/N7S180FR

Rights Information

Creative Commons License
This work is licensed under a Creative Commons Public Domain Dedication 1.0 License.

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