Michael Schluter
Katrin Laqua

Abstract

Measurements of particle size distributions of Louisiana sweet crude oil in two-phase jets with an endoscopic measuring system. Generation of a number of pictures at one height above the orifice to determine the particle size distribution. The dataset includes the raw data. For data about the particle size distributions of methane jets under high pressure, please refer to C-IMAGE II dataset R4.x267.178:0005.

Comments

Extent

Dataset contains laboratory measurements of particle size in water jets under the influence of various pressures and temperatures.

Supplemental Information

Series, Temperature (4, 10, 20) [degrees C], Pressure (0.1, 5, 8, 15) [MPa], Amount of classes, Particle diameter all in [um]: geometric mean (dg), arithmetic mean (d1,0), number-surface mean (d2,0), number-volume mean (d3,0), length-surface mean (d2,1), length-volume mean (d3,1), Sauter mean (d3,2), De Brouckere mean (d4,3), mean d5,4, minimum diameter (dmin), maximum diameter (dmx), <10% of Number (dn10), median of number (dn50), <90% of number (dn90), <95% of number (dn95), <10% of volume (dv10), median of volume (dv50), , <90% of volume (dv90), <95% of volume (dv95); Bin dp [um]: particle diameter, Pdf q0: Probability density function [um^1], Cdf: cumulative distribution function of number.||Endoscopic high pressure measuring system of the company SOPAT GmbH|||

Purpose

These experiments have been done to investigate the influence of pressure and temperature on particle size distribution in jets.

Keywords

Droplet size distribution, Jet behavior

UDI

R1.x135.118:0007

Date

May 2016

Point of Contact

Name

Michael Schlüter

Organization

Technical University of Hamburg / Institute of Multiphase Flows

Funding Source

RFP-1

DOI

10.7266/N7NK3C19

Rights Information

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

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