These vibrant colors make jumping jets stand out in the dark and offer this amazing, magic kind of effect. This translates to more vibrant colors to choose from and amazing, dynamic light sequences. Stunning illumination, low energy consumption and an amazing lifespan of nearly 100.000 hours, lead to the brightest and most energy efficient Jumping Laminar Streams.Īpart from Red, Green and Blue cores, this luminaire sports a fourth one: White, which multiplies the available color spectrum by another 256 steps. Intense, Vivid, Colorful RGBW Illuminationįontana Jumping Jets feature an amazing 8W, single-chip, four-core RGBW LED luminaire inside – a cutting-edge member of TheSmartLEDTM family which offers exceptionally intense illumination & millions of vivid colors. Electronics-wise, we made Jumping Jets capable to be controlled over a multitude of platforms – from simple electronic panels, to PLCs, to DMX, to BMS systems, even through iPad. Illumination-wise, we incorporated an amazing 8W, RGBW, 4-core, single chip luminaire with exceptionally vivid colors to uniformly illuminate the water stream internally in its entire length. Engineering-wise, we developed a remarkable low voltage Cutting Mechanism which is not based in motors or solenoids with incredible characteristics like droplet-free cutting and 10 bursts per second. Construction-wise, they are entirely made of stainless steel, inside-out, to insure the integrity of the jet & the water effect and remain pristine under the harshest adversities for years to come even when operating overtime. We precisely engineered and manufactured these jets to be absolutely stunning, in every manner. Seeing this special water effect closely is an astonishing experience both day and night with its amazing million-color light spectrum. This glass-like stream always follows its arc-shaped, parabolic trajectory without falling under it. It is essentially a water rod, so steady that resembles to glass and yet so lively. A mind-blowing water effect that defies the laws of gravity and fluid physics. The wings are specially designed to cut the air in order to create laminar flow of air around it so as to minimise drag effects and help produce lift.Jumping Jets. Another important application of laminar flow is seen in the wings of an aircraft. The jets can be fitted with LEDs to create even more spectacular formations. Therefore, using water with a viscosity of approximately 1, at low velocities and small diameters of nozzles, the water fountains at airports can be engineered to create majestic glass rod looking flow of water. At lower values of Re, the flow of the fluid is laminar and when Re exceeds a certain transition threshold, the flow becomes turbulent. Hence, Re is directly proportional to the velocity of the fluid and the diameter of the tube and is inversely proportional to the viscosity of the fluid. Laminar flow is generally governed by the geometry of the tube, the velocity of the fluid, and the viscosity of the fluid. His research yielded the Reynolds Number (Re) which is a dimensionless number that acts as a parameter to identify the transition between laminar and turbulent flow. Osborne Reynolds studied and theorised the distinction between laminar and turbulent regimes of flow. Soon after the water falls over the edge, mixing of the different currents with acceleration due to gravity causes turbulence in the flow, breaking away from the smooth laminar flow. At the very edge of the waterfall, the currents of water follow laminar flow because of the velocity of water as it reaches the edge. The one example of laminar flow that occurs in nature is in waterfalls. In contrast to laminar flow, turbulent flow is when cross currents, swirls, and mixing between the paths of the fluid cause chaotic flow of fluid. Have you ever wondered how those water fountains at airports have perfectly smooth jets of water, that look like rods of glass jumping around in all directions? Well, that is because of a phenomenon called laminar flow! In fluid dynamics, when the flow of fluid particles follows smooth paths, all parallel to each other with no mixing between the layers, laminar flow is achieved where the fluid is so streamlined that when it exits a nozzle or pipe, it looks exactly like a rod of glass.
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