Add to ORKGBackground oriented schlieren (BOS) is a quantitative measurement method based on refractive index change of the fluid in question. The change of the refractive index is related with density, temperature and concentration gradients. So far, the technique has been used in various flow types. Since the measurement includes acquisition of an image of a background target, all previous applications were on test sections where both sides are optically accessible. In this study, we aim to extend the application to cases where the optical access to the test section is limited to only one direction. We performed measurements in a thin fluid layer (3 mm thick) bounded by a glass plate on top and highly reflective surface below. Flow was provided by t...
As a diagnostic method, Schlieren imaging offers the unique ability to visualize flows with a comple...
Background-oriented full-scale schlieren (BOFSS) with large test sections is a famous technique, spe...
International audienceThe aim of the present study is to validate an experimental method for the mea...
In this paper, we discuss temperature and velocity measurements inside a thin fluid layer using bac...
Background Oriented Schlieren (BOS) is an optical technique that allows an indirect measurement of t...
A combination of quantitative background oriented schlieren (BOS) and particle image velocimetry (PI...
This article focuses on further developments of the background-oriented schlieren (BOS) technique to...
Background Oriented Schlieren (BOS) methods are using the distortion of "background" - ima...
The Background Oriented Schlieren Method is a measurement system suitable for every kind of flow wit...
A quantitative schlieren technique has been applied to the study of two-dimensional free convection ...
This article gives an overview of the background- oriented schlieren (BOS) technique, typical applic...
Quantitative measurements of fluid flow can be achieved by flow visualization techniques, and this p...
Some examples of Measurements with the BOS technique are shown. Results of investigations regarding ...
Background-oriented schlieren (BOS) is an optical visualization technique that reconstructs a whole-...
Density-based schlieren methods are a well-known and well-established tool for studying flows. A rep...
As a diagnostic method, Schlieren imaging offers the unique ability to visualize flows with a comple...
Background-oriented full-scale schlieren (BOFSS) with large test sections is a famous technique, spe...
International audienceThe aim of the present study is to validate an experimental method for the mea...
In this paper, we discuss temperature and velocity measurements inside a thin fluid layer using bac...
Background Oriented Schlieren (BOS) is an optical technique that allows an indirect measurement of t...
A combination of quantitative background oriented schlieren (BOS) and particle image velocimetry (PI...
This article focuses on further developments of the background-oriented schlieren (BOS) technique to...
Background Oriented Schlieren (BOS) methods are using the distortion of "background" - ima...
The Background Oriented Schlieren Method is a measurement system suitable for every kind of flow wit...
A quantitative schlieren technique has been applied to the study of two-dimensional free convection ...
This article gives an overview of the background- oriented schlieren (BOS) technique, typical applic...
Quantitative measurements of fluid flow can be achieved by flow visualization techniques, and this p...
Some examples of Measurements with the BOS technique are shown. Results of investigations regarding ...
Background-oriented schlieren (BOS) is an optical visualization technique that reconstructs a whole-...
Density-based schlieren methods are a well-known and well-established tool for studying flows. A rep...
As a diagnostic method, Schlieren imaging offers the unique ability to visualize flows with a comple...
Background-oriented full-scale schlieren (BOFSS) with large test sections is a famous technique, spe...
International audienceThe aim of the present study is to validate an experimental method for the mea...