Karen Malone

Abstract

The dataset contains droplet size measurements from autoclave jet experiments with n-decane and methane-saturated n-decane, at 150 bar ambient pressure at 20° C. The dataset includes two tables: particle size distributions (PSD) of (1) n-decane and (2) methane-saturated n-decane jets entering into seawater. The n-decane is over 99 % pure, provided by Carl Roth GmbH. For this experiment, the oil pressure was 150 +/- 1 bar and the oil volume flow was 1 1.1 - 1.2 l/min. Other related datasets are available under GRIIDC UDIs R4.x267.000:0047 and R4.x267.000:0112. This dataset supports the publication: Malone, K., Pesch, S., Schlüter, M., & Krause, D. (2018). Oil Droplet Size Distributions in Deep-Sea Blowouts: Influence of Pressure and Dissolved Gases. Environmental Science & Technology, 52(11), 6326–6333. doi:10.1021/acs.est.8b00587.

Comments

Extent

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

Supplemental Information

Number of bins, bin number, droplet diameter (lower and upper bin limit; µm), number of droplets in bin (counts), oil pressure (bar), hydrostatic pressure (bar), temperature (degrees C), oil volume flow (l/min), nozzle size (mm).|||||

Purpose

Data generated to quantify the effect of hydrostatic pressure and dissolved methane on oil droplet size distributions in a sub-sea oil blowout.

Keywords

particle size distribution, n-decane, methane, jets experiments, methane-saturated n-decane, droplet size, autoclave

UDI

R4.x267.000:0048

Date

February 2019

Point of Contact

Name

Karen Malone

Organization

Technical University of Hamburg / Product Development and Mechanical Engineering Design

Name

Michael Schlüter

Organization

Technical University of Hamburg / Institute of Multiphase Flows

Funding Source

RFP-4

DOI

10.7266/N7V69H19

Rights Information

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

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