Solid Spherical Heat Transfer Coefficient Determination Experiment Device
Through this device, students can learn the methods and principles for determining the convective heat transfer coefficient and Nusselt number; acquire knowledge of the characteristics of unsteady-state heat conduction and the physical meaning of the Biot number (Bi); familiarize themselves with the operational characteristics of fluidized beds and fixed beds; and measure the cooling curves of small balls under natural convection, forced convection, fixed bed experiments, and fluidized bed experiments.
♥ 1. Through this device, students can learn the methods and principles for determining the convective heat transfer coefficient and Nusselt number.
♥ 2. Students can acquire knowledge of the characteristics of unsteady-state heat conduction and the physical meaning of the Biot number (Bi).
♥ 3. Students can familiarize themselves with the operational characteristics of fluidized beds and fixed beds.
♥ 4. The device enables the measurement of cooling curves of small balls under natural convection, forced convection, fixed bed experiments, and fluidized bed experiments.
♥ 5. Equipment appearance and dimensions: The device is constructed with a high-quality aluminum alloy frame and casters, with overall dimensions no larger than 1480mm×580mm×1500mm (length×width×height).
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