Experimental Setup & System Specifications: Spray PIV with NEO 25
To ensure high-fidelity measurements of transient spray dynamics, this experiment utilizes the Revealer NEO 25 series. Its ultra-high sensitivity is specifically engineered to capture faint scattering signals from micron-sized PIV particles in high-speed atomization fields.
Measurement Parameter
Technical Specifications & Details
High-Speed Camera
Revealer NEO 25 (High-Sensitivity sCMOS Series)
Imaging Speed
2,500 fps @ 2048 x 2048 (Customizable up to 10,000+ fps at reduced res)
Superior Peak QE for low-light tracer particle imaging
Synchronization
Sub-microsecond precision triggering via External PIV Controller
Key Advantage
Extreme low-noise floor ensuring high SNR in PIV images
Advanced Spray Diagnostics with Particle Image Velocimetry (PIV)
Analyzing high-speed spray atomization requires a Particle Image Velocimetry system that can capture subtle PIV images in low-light conditions. The Revealer NEO 25 excels in Spray Flow Field experiments due to its high sensitivity, allowing researchers to track PIV particles even at micro-scales. Whether you are conducting Micro PIV for precision nozzles or Tomographic Particle Image Velocimetry for 3D spray structures, our high-speed imaging technology provides the spatial and temporal resolution necessary for accurate fluid dynamic modeling.
Hardware & Integrated Measurement Solutions
Successful flow visualization depends on the balance between temporal resolution and light sensitivity. To replicate the results shown in this spray PIV experiment, specific high-performance hardware is required.
The Heart of High-Sensitivity Imaging:
In high-speed spray diagnostics, capturing the faint scattering of tracer particles requires a sensor with exceptional quantum efficiency. The NEO 25 High-Speed Camera is specifically designed for PIV/PTV applications where sensitivity is paramount. Its ultra-low noise floor ensures that even under rapid atomization conditions, every PIV image maintains the contrast necessary for precise vector calculation.
Comprehensive Flow & Structural Analysis:
While 2D PIV captures planar velocity fields, complex industrial research often demands a holistic view of both fluid and structural interactions. Explore our complete Digital Image Correlation (DIC) & PIV Systems for comprehensive structural and fluid measurement. Our integrated software platform supports everything from Micro-PIV to Tomographic Particle Image Velocimetry, providing a unified solution for multi-physics research.
