High-brightness, high-power LED-based strobe illumination for double-frame micro particle image velocimetry

There is a need for more practical, cost-effective and adaptive flow measurement instruments. Unfortunately, most of the current equipment still has to employ bulky and expensive laser systems for flow illumination. In this work we explore the practicability of using high-brightness high-power light...

Full description

Saved in:
Bibliographic Details
Published in:Flow measurement and instrumentation 2014-06, Vol.37, p.12-28
Main Authors: Nasibov, Humbat, Balaban, Ertan, Kholmatov, Alisher, Nasibov, Adalat
Format: Article
Language:English
Subjects:
Blue-shift
Double-frame PIV
Fluorescence
Laminar flow
LED
Microchannel
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:There is a need for more practical, cost-effective and adaptive flow measurement instruments. Unfortunately, most of the current equipment still has to employ bulky and expensive laser systems for flow illumination. In this work we explore the practicability of using high-brightness high-power light-emitting diodes (LED) as a strobe-light illuminator within a double-frame micro particle image velocimetry (microPIV) system. A compact, cost-effective, and controllable LED driver was designed and applied to study the optical and spectral behavior of green and blue family direct-color single chip LEDs, which have excitation wavelengths corresponding to the most widely used fluorescent micro particles. To achieve strobe illumination, LEDs were subjected to high current double-pulsed operating regimes (up to 35A at 20μs pulse duration), which are much beyond their physical damage thresholds. We have witnessed that the blue family LEDs are more suitable for the fluorescence based microPIV experiments as they exhibit more stable spectral behavior at the double-pulsed high currents compared to the green colored LEDs. Specifically, we have observed that the spectral wavelength shift of blue family LEDs due to the high current is less severe and still enough to excite particles than that of green LEDs. Also, we have studied the relation between the pulse duration (as a means of parameter controlling signal-to-noise ratio) and the motion blur effect that arises due to the prolonged pulse durations. As a result, adequate pulse durations for most widely used microPIV experimental conditions were calculated. The feasibility and robustness of the developed double-pulsed LED illumination system was validated through a series of microPIV experiments with real flows inside two different topology microchannels, where the measured velocity was in good agreement with the corresponding analytical solutions. Overall, we can conclude that the high-brightness LED devices are promising candidates to replace their laser counterparts in the microPIV systems. •A compact and cost-effective double-pulse LED illuminator for microPIV is designed.•An impact of pulse duration on particle motion blur effect is analytically studied.•Behaviors of high-power LEDs at high-current double-pulsed regimes are investigated.•Experiments with submicron size fluorescent particles in microchannels are carried out.•Feasibility of the illuminator is assessed within the microPIV measurements of laminar flows
ISSN:0955-5986
1873-6998
DOI:10.1016/j.flowmeasinst.2014.03.004