Experimental study of heat transfer to non-Newtonian fluids inside a scraped surface heat exchanger using a generalization method
Autor: | P.G. Vicente, Antonio Viedma, D. Crespí-Llorens |
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Rok vydání: | 2018 |
Předmět: |
Fluid Flow and Transfer Processes
Pressure drop Dynamic scraped surface heat exchanger Materials science 020209 energy Mechanical Engineering Laminar flow 02 engineering and technology Mechanics 021001 nanoscience & nanotechnology Condensed Matter Physics Nusselt number Physics::Fluid Dynamics Heat transfer Heat exchanger 0202 electrical engineering electronic engineering information engineering Plate fin heat exchanger 0210 nano-technology Shell and tube heat exchanger |
Zdroj: | International Journal of Heat and Mass Transfer. 118:75-87 |
ISSN: | 0017-9310 |
Popis: | The heat transfer process to a non-Newtonian pseudoplastic fluid inside a scraped surface heat exchanger has been experimentally analysed. The scraping device consists of a rod with semicircular pieces mounted on it, which are in contact with the inner surface of the pipe. The whole moves axially and thus, the pieces scrape the inner surface of the pipe, in order to avoid fouling formation and enhance heat transfer. Pressure drop, heat transfer and power consumption measurements, using non-Newtonian pseudoplastic fluids, have been carried out in static and dynamic conditions of the scraper. Four flow regions have been identified: attached laminar, detached laminar, transitional and turbulent flow regions. A generalization method for the fluid viscosity that includes the effects of the non-Newtonian behaviour has been used. Friction factor and Nusselt number have been successfully correlated by employing the generalized viscosity on pressure drop and heat transfer results, both in static and dynamic conditions, for three of the four identified flow regions (it was not possible to get correlations in the transition to turbulent flow region). The study shows that, despite the high power consumption of the scraping movement, the device is suitable for an industrial process using non-Newtonian fluids, since it prevents fouling, increases heat transfer, provides flexibility and enhances the final product quality. Furthermore, the obtained correlations are a valuable tool in the design of heat exchangers. |
Databáze: | OpenAIRE |
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