Publication detail
High-speed 3D imaging of liquid sheet surfaces using the FP-LIF technique
ROTH, A. SAPÍK, M. JEDELSKÝ, J. BERROCAL, E.
English title
High-speed 3D imaging of liquid sheet surfaces using the FP-LIF technique
Type
article in a collection out of WoS and Scopus
Language
en
Original abstract
Accurate visualization and understanding of liquid breakups and dynamics of liquid jets, sheets, blobs and ligaments is important for a wide range of spray applications. Here, temporally resolved 3D measurements are necessary to obtain the complete characterization these processes. The currently available 3D imaging techniques are usually based on time-averaged data and do not have the capability of 3D temporally resolving fast liquid breakup phenomena. We have developed a novel technique called Fringe Projection – Laser Induced Fluorescence, FP-LIF, with the possibility of generating snapshot 3D surface reconstructions of irregular liquid structures, such as liquid sheets, ligaments, blobs and other large liquid bodies. The advantage of this technique is that only a single camera is used for generating 3D data. In this article we push the technique one step forward by using a Photron SA-Z high-speed camera to obtain 3D reconstructions of a hollow cone liquid sheet structure at 20 000 frames per second. This liquid sheet is generated from a pressure swirl atomizer. Such new type of data, presented here, are particularly relevant for the validation and improvement of computational spray models and for acquiring detailed insight on the conical sheet development and breakup.
English abstract
Accurate visualization and understanding of liquid breakups and dynamics of liquid jets, sheets, blobs and ligaments is important for a wide range of spray applications. Here, temporally resolved 3D measurements are necessary to obtain the complete characterization these processes. The currently available 3D imaging techniques are usually based on time-averaged data and do not have the capability of 3D temporally resolving fast liquid breakup phenomena. We have developed a novel technique called Fringe Projection – Laser Induced Fluorescence, FP-LIF, with the possibility of generating snapshot 3D surface reconstructions of irregular liquid structures, such as liquid sheets, ligaments, blobs and other large liquid bodies. The advantage of this technique is that only a single camera is used for generating 3D data. In this article we push the technique one step forward by using a Photron SA-Z high-speed camera to obtain 3D reconstructions of a hollow cone liquid sheet structure at 20 000 frames per second. This liquid sheet is generated from a pressure swirl atomizer. Such new type of data, presented here, are particularly relevant for the validation and improvement of computational spray models and for acquiring detailed insight on the conical sheet development and breakup.
Keywords in English
High-speed; 3D imaging; liquid sheet; LIF technique
Released
30.08.2021
Publisher
University of Edinburgh Journal Hosting Service
Location
Edinburgh
Book
ICLASS Edinburgh 2021
Volume
1
Number
1
Edition number
1
Pages from–to
1–8
Pages count
8
BIBTEX
@inproceedings{BUT175974,
author="Adrian {Roth} and Marcel {Sapík} and Jan {Jedelský} and Edouard {Berrocal},
title="High-speed 3D imaging of liquid sheet surfaces using the FP-LIF technique",
booktitle="ICLASS Edinburgh 2021",
year="2021",
volume="1",
number="1",
month="August",
pages="1--8",
publisher="University of Edinburgh Journal Hosting Service",
address="Edinburgh"
}