Publicação: Experimental analysis of heat transfer in packed beds with air flow
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Heat-transfer studies were carried out in a packed bed of glass beads, cooled by the wall, through which air percolated. Tube-to-particle diameter ratios (D/dp) ranged from 1.8 to 55, while the air mass flux ranged from 0.204 to 2.422 kg/m2·s. The outlet bed temperature (TL) was measured by a brass ring-shaped sensor and by aligned thermocouples. The resulting radial temperature profiles differed statistically. Angular temperature fluctuations were observed through measurements made at 72 angular positions. These fluctuations do not follow a normal distribution around the mean for low ratios D/dp. The presence of a restraining screen, as well as the increasing distance between the temperature measuring device and the bed surface, distorts TL. The radial temperature profile at the bed entrance (T0) was measured by a ring-shaped sensor, and T 0 showed to be a function of the radial position, the particle diameter, and the fluid flow rate.
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Cooling, Flow of fluids, Glass, Heat transfer, Thermocouples, Air flow, Temperature profiles, Packed beds, glass, microsphere, air, airflow, heat transfer, mathematical analysis, model, packed bed, air mass flux, analysis, experiment, flow rate, mass, measurement, packed bed reactor, particle size, radial temperature, sensor, temperature, tube, tube to particle diameter ratio
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Inglês
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Industrial and Engineering Chemistry Research, v. 43, n. 15, p. 4140-4148, 2004.
