Standard operational features of the FASTCAM Mini UX include a Gigabit Ethernet Interface for reliable system control with high-speed data transfer to PC, and the ability to remotely switch off cooling fans to eliminate vibrations when recording at high magnifications. This small and rugged camera design makes the FASTCAM Mini UX ideally suited to on-board and off-board automotive safety testing and many other applications where a compact size and compatibility with standard optical systems is required.
The FASTCAM Mini UX features a rugged design suitable for operation in high shock and vibration environments and a compact camera body (120mm x 120mm x 93mm) weighing just 1.5kg. At maximum image resolution the image sensor is fully compatible with readily available 1-inch C-mount lenses offering a wide choice of small, lightweight, rugged and high aperture objective lenses. Using innovative proprietary CMOS image sensor technology, the FASTCAM Mini UX achieves high light sensitivity from a small image sensor (10μm pixel pitch) through the utilization of microlenses to increase effective Fill Factor. Both models are available with recording memory options up to 32GB providing extended recording times and triggering flexibility. Two Mini UX camera models provide 1.3-megapixel (1280 x 1024 pixels) image resolution with frame rates up to 2,000fps from the Mini UX50 and 4,000fps from the Mini UX100. Our study provides insights in gas-evolving electrocatalysis and offers opportunities for the design and fabrication of high-performance electrocatalytic reactors.For use with a wide range of general scientific and industrial applications the Photron FASTCAM Mini UX high-speed camera provides outstanding imaging performance at a very attractive price performance ratio. Finally, the underlying dynamic force balance on the gas bubble is analyzed to illustrate the mechanism and experimental observations. Parameters and underlying mechanisms that influence the two-phase flow evolution and electrochemical reaction performance are carefully discussed. The dynamics of a gas bubble at an electrode with a plate and 100-mesh, 150-mesh, and 300-mesh structures is systematically investigated with respect to applied voltage conditions. Here, we construct a three-electrode water splitting reaction system to study the bubble dynamics and system efficiency of titanium electrodes with different morphologies.
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Detailed information on the local transport process between different phases and the underlying mechanism are required for the full understanding of two-phase flow evolution and distribution. However, bubble dynamics and its influence on gas-evolving electrode systems remain ambiguous. Electrochemical catalysis offers great potential in energy and mass conversion in academy and industry.