Add to ORKGIn this study, we quantify the accuracy of a simple pressure estimation method from 2D snapshot PIV in attached and separated flows. Particle image velocimetry (PIV) offers the possibility to acquire a field of pressure instead of point measurements. Multiple methods may be used to obtain pressure from PIV measurements, however, the current state-of-the-art requires expensive equipment and data processing. As an alternative, we aim to quantify the efficacy of estimating instantaneous pressure from snapshot (non-time resolved) two-dimensional planar PIV (the simplest type of PIV available). To make up for the loss of temporal information, we rely on Taylor’s hypothesis (TH) to replace temporal information with spatial gradients. Application ...
Reconstruction of the pressure field from experimental velocity data is challenging, and no single m...
A methodology for a posteriori uncertainty quantification of pressure data retrieved from particle i...
The most explored path to obtain pressure fields from Particle Image Velocimetry (PIV) data roots it...
In this study, we quantify the accuracy of a simple pressure estimation method from 2D snapshot PIV ...
This paper deals with the determination of instantaneous planar pressure fields from velocity data o...
A method is proposed to determine the instantaneous pressure field from a single tomographic PIV vel...
Three-dimensional time-resolved velocity field measurements are obtained using a high-speed tomograp...
The topic of this article is a review of the approach to extract pressure fields from flow velocity ...
Pressure reconstruction based on particle image velocimetry (PIV) refers to the determination of pre...
The purpose of this work is to enhance the understanding of wall-bounded turbulent flows, with respe...
Pressure represents a physical magnitude which allows the characterisation of flow behaviour. Its st...
Taylors hypothesis is often applied in turbulent flow analysis to map temporal information into spat...
Quantification of mean and fluctuating surface loads is critical for the efficient design of aerospa...
A test case for PIV-based pressure evaluation techniques has been developed by constructing a simula...
Reconstruction of the pressure field from experimental velocity data is challenging, and no single m...
A methodology for a posteriori uncertainty quantification of pressure data retrieved from particle i...
The most explored path to obtain pressure fields from Particle Image Velocimetry (PIV) data roots it...
In this study, we quantify the accuracy of a simple pressure estimation method from 2D snapshot PIV ...
This paper deals with the determination of instantaneous planar pressure fields from velocity data o...
A method is proposed to determine the instantaneous pressure field from a single tomographic PIV vel...
Three-dimensional time-resolved velocity field measurements are obtained using a high-speed tomograp...
The topic of this article is a review of the approach to extract pressure fields from flow velocity ...
Pressure reconstruction based on particle image velocimetry (PIV) refers to the determination of pre...
The purpose of this work is to enhance the understanding of wall-bounded turbulent flows, with respe...
Pressure represents a physical magnitude which allows the characterisation of flow behaviour. Its st...
Taylors hypothesis is often applied in turbulent flow analysis to map temporal information into spat...
Quantification of mean and fluctuating surface loads is critical for the efficient design of aerospa...
A test case for PIV-based pressure evaluation techniques has been developed by constructing a simula...
Reconstruction of the pressure field from experimental velocity data is challenging, and no single m...
A methodology for a posteriori uncertainty quantification of pressure data retrieved from particle i...
The most explored path to obtain pressure fields from Particle Image Velocimetry (PIV) data roots it...